Claims
- 1. A method of regenerating a cryopump comprising:
- opening a purge valve to apply a gas purge to the cryopump and warming cryopumping surfaces of the cryopump to high temperatures substantially above ambient to release gases from the cryopump;
- cooling the cryopump to lower temperatures substantially less than the high temperatures;
- closing the purge valve; and
- with the purge valve closed, maintaining the lower temperatures while roughing the cryopump and performing a rough test.
- 2. A method as claimed in claim 1 wherein the step of cooling the cryopump comprises:
- opening a roughing valve to a roughing pump while continuing to apply the gas purge and cooling the cryopump to the lower temperatures.
- 3. A method as claimed in claim 2 wherein the cryopump is cooled to the lower temperatures by turning a refrigerator of the cryopump on.
- 4. A method as claimed in claim 2 wherein the roughing valve is open while the gas purge is applied at the high temperatures.
- 5. A method as claimed in claim 4 wherein the high temperature is about 330K and the lower temperature is about ambient temperature.
- 6. A method as claimed in claim 4 further comprising, if the cryopump fails the rough test, simultaneously purging and roughing the cryopump and then again closing the purge valve and roughing and testing the cryopump.
- 7. A method as claimed in claim 6 wherein the purging and roughing of the cryopump after test failure is only at the lower temperatures.
- 8. A method as claimed in claim 7 wherein the purging and roughing at the lower temperatures is with a refrigerator of the cryopump on.
- 9. A method as claimed in claim 8 wherein the high temperature is about 330K and the lower temperature is about ambient temperature.
- 10. A method as claimed in claim 1 further comprising:
- opening a roughing valve to a roughing pump while applying the purge gas at the high temperatures.
- 11. A method as claimed in claim 10 wherein the cryopump is cooled to the lower temperatures by means of a refrigerator of the cryopump and maintained at about ambient temperature.
- 12. A method as claimed in claim 11 wherein the purge valve is left open and the roughing valve is left open as the cryopump is cooled to about ambient temperature.
- 13. A method as claimed in claim 1 wherein opening of the purge valve is by modulating the purge valve open and closed.
- 14. A method as claimed in claim 1 wherein the average pressure while purging and roughing is in the range of 10 to 30 torr.
- 15. A method as claimed in claim 1 wherein the purge valve is a variable control valve.
- 16. A method of regenerating a cryopump comprising:
- purging the cryopump with a gas purge;
- rough pumping the cryopump;
- testing the cryopump for proper roughing; and
- if the cryopump fails:
- simultaneously purging and roughing the cryopump; and
- stopping purging and again roughing and testing the cryopump.
- 17. A method as claimed in claim 16 wherein the purging and roughing of the cryopump is at about ambient temperature.
- 18. A method as claimed in claim 16 wherein a cryopump refrigerator is turned on during the purging and roughing.
- 19. A method as claimed in claim 16 wherein the purging is by modulating a purge valve open and closed.
- 20. A method as claimed in claim 16 wherein the average pressure while purging and roughing is in the range of 10 to 30 torr.
- 21. A method as claimed in claim 16 wherein purging is through a variable control valve.
- 22. A method of regenerating a cryopump comprising:
- warming cryopumping surfaces of the cryopump to high temperatures substantially above ambient and opening a purge valve to apply a gas purge to the cryopump, and opening a roughing valve to a roughing pump while applying the purge gas at the high temperatures;
- turning a refrigerator of the cryopump on and cooling the cryopump to lower temperatures of about ambient temperature while keeping the purge valve and roughing valve open;
- closing the purge valve and keeping the roughing valve open while maintaining the cryopump at the lower temperatures to rough pump the cryopump to a base pressure; and
- performing a rough test while rough pumping the cryopump and, with failure of the cryopump, again opening the purge valve with the rough valve open to repurge and rough the cryopump at the lower temperatures.
- 23. A method as claimed in claim 22 wherein opening of the purge valve is by modulating the purge valve open and closed.
- 24. A method as claimed in claim 22 wherein the average pressure while purging and roughing is in the range of 10 to 30 torr.
- 25. A method as claimed in claim 22 wherein the purge valve is a variable control valve.
- 26. A cryopump comprising:
- a cryopump chamber;
- a warm purge gas valve for applying purge gas to the cryopump chamber;
- a roughing valve for coupling the cryopump chamber to a roughing pump; and
- an electronic controller for controlling the purge gas valve and roughing valve, the controller being programmed to control a regeneration process by:
- opening the purge valve to apply a gas purge to the cryopump and warming the cryopump to high temperatures substantially above ambient to release gases from the cryopump; and
- cooling the cryopump to lower temperatures substantially less than the high temperatures and maintaining the lower temperatures while roughing the cryopump and performing a rough test.
- 27. A cryopump as claimed in claim 26 wherein the controller is programmed to:
- open the roughing valve to the roughing pump while continuing to apply purge gas and cooling the cryopump to the lower temperatures; and
- close the purge valve while keeping the roughing valve open to rough the cryopump to a sufficiently low pressure for cryopumping.
- 28. A cryopump as claimed in claim 27 wherein the controller cools the cryopump to the lower temperatures by turning a refrigerator of the cryopump on.
- 29. A cryopump as claimed in claim 27 wherein the controller opens the roughing valve while the gas purge is applied at the high temperatures.
- 30. A cryopump as claimed in claim 29 wherein the high temperature is about 330K and the lower temperature is about ambient temperature.
- 31. A cryopump as claimed in claim 29 wherein the controller, if the cryopump fails the rough test, simultaneously purges and roughs the cryopump and then again closes the purge valve and roughs and tests the cryopump.
- 32. A cryopump as claimed in claim 31 wherein the controller purges and roughs the cryopump after test failure only at the lower temperatures.
- 33. A cryopump as claimed in claim 32 wherein the controller purges and roughs at the lower temperatures with a refrigerator of the cryopump on.
- 34. A cryopump as claimed in claim 33 wherein the high temperature is about 330K and the lower temperature is about ambient temperature.
- 35. A cryopump as claimed in claim 26 wherein the controller is programmed to open a roughing valve to a roughing pump while applying the purge gas at the high temperatures.
- 36. A cyropump as claimed in claim 35 wherein the controller is programmed to cool the cryopump to the lower temperature by means of a refrigerator of the cryopump and to maintain the lower temperatures at about ambient temperature.
- 37. A cryopump as claimed in claim 36 wherein the controller is programmed to leave the purge valve open and the roughing valve open as the cryopump is cooled to about ambient temperature.
- 38. A cryopump as claimed in claim 26 wherein opening of the purge valve is by modulating the purge valve open and closed.
- 39. A cryopump as claimed in claim 26 wherein the average pressure while purging and roughing is in the range of 10 to 30 torr.
- 40. A cryopump as claimed in claim 26 wherein the purge valve is a variable control valve.
- 41. A cryopump comprising:
- a cryopump chamber;
- a warm purge gas valve for applying purge gas to the cryopump chamber;
- a roughing valve for coupling the cryopump chamber to a roughing pump; and
- an electronic controller for controlling the purge gas valve and roughing valve, the controller being programmed to control a regeneration process by:
- opening the purge gas valve to purge the cryopump;
- opening the roughing valve to rough pump the cryopump; and
- testing the cryopump for proper roughing and, if the cryopump fails:
- simultaneously opening the purge gas valve and roughing valve to purge and rough the cryopump; and
- closing the purge gas valve and again rough pumping and testing the cryopump.
- 42. A cryopump as claimed in claim 41 wherein the controller controls purging and roughing of the cryopump at about ambient temperature.
- 43. A cryopump as claimed in claim 41 wherein the controller turns on a cryopump refrigerator during the purging and roughing.
- 44. A cryopump as claimed in claim 41 wherein opening of the purge valve is by modulating the purge valve open and closed.
- 45. A cryopump as claimed in claim 41 wherein the average pressure while purging and roughing is in the range of 10 to 30 torr.
- 46. A cryopump as claimed in claim 41 wherein the purge valve is a variable control valve.
- 47. An electronic controller programmed to control a cryopump regeneration comprising:
- first means for opening a purge valve to apply a gas purge to the cryopump and warming the cryopump to high temperatures substantially above ambient to release gases from the cryopump; and
- second means for cooling the cryopump to lower temperatures substantially less than the high temperatures and maintaining the lower temperatures while roughing the cryopump and performing a rough test.
- 48. An electronic controller as claimed in claim 32 wherein said second means comprises:
- means for opening the roughing valve to the roughing pump while continuing to apply purge gas and cooling the cryopump to the lower temperatures; and
- means for closing the purge valve while keeping the roughing valve open to rough the cryopump to a sufficiently low pressure for cryopumping.
- 49. An electronic controller as claimed in claim 48 wherein the controller opens the roughing valve while the gas purge is applied at the high temperatures.
- 50. An electronic controller as claimed in claim 49 wherein the controller, if the cryopump fails the rough test, simultaneously purges and roughs the cryopump and then again closes the purge valve and roughs and tests the cryopump.
- 51. An electronic controller as claimed in claim 50 wherein the controller purges and roughs the cryopump after test failure only at the lower temperatures.
- 52. An electronic controller as claimed in claim 51 wherein the controller purges and roughs at the lower temperatures with a refrigerator of the cryopump on.
- 53. An electronic controller as claimed in claim 47 programmed to open a roughing valve to a roughing pump while applying a purge gas at the high temperatures.
- 54. An electronic controller as claimed in claim 53 programmed to cool the cyropump to the lower temperatures by means of a refrigerator of the cryopump and to maintain the lower temperatures at about ambient temperature.
- 55. An electronic controller as claimed in claim 54 programmed to leave the purge valve open and the roughing valve open as the cryopump is cooled to about ambient temperature.
- 56. An electronic controller as claimed in claim 47 wherein opening of the purge valve is by modulating the purge valve open and closed.
- 57. An electronic controller as claimed in claim 47 wherein the average pressure while purging and roughing is in the range of 10 to 30 torr.
- 58. An electronic controller as claimed in claim 47 wherein the purge valve is a variable control valve.
- 59. An electronic controller programmed to control a cryopump regeneration comprising:
- means for opening the purge gas valve to purge the cryopump;
- means for opening the roughing valve to rough pump the cryopump; and
- means for testing the cryopump for proper roughing and, if the cryopump fails:
- simultaneously opening the purge gas valve and roughing valve to purge and rough the cryopump; and
- closing the purge gas valve and again rough pumping and testing the cryopump.
- 60. An electronic controller as claimed in claim 59 wherein the controller turns on a cryopump refrigerator during the purging and roughing.
- 61. An electronic controller as claimed in claim 59 wherein opening of the purge valve is by modulating the purge valve open and closed.
- 62. An electronic controller as claimed in claim 59 wherein the average pressure while purging and roughing is in the range of 10 to 30 torr.
- 63. An electronic controller as claimed in claim 59 wherein the purge valve is a variable control valve.
RELATED APPLICATIONS
This application is a Continuation-in-Part application of application Ser. No. 08/619,131, filed Mar. 20, 1996, now abandoned, which is incorporated herein by reference in its entirety.
US Referenced Citations (14)
Foreign Referenced Citations (1)
Number |
Date |
Country |
2 065 782 |
Jul 1981 |
GBX |
Non-Patent Literature Citations (1)
Entry |
Matsuo, Mukuda et al., Patent Abstracts of Japan, "Starting and Regenerating Method of Cryo-Pump," vol. 012, No. 208 (M-709), Jun. 15, 1988. |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
619131 |
Mar 1996 |
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