Claims
- 1. A method for vacuum packaging integrated circuit devices, comprising:
forming on a device wafer a plurality of integrated circuit devices; forming a plurality of first sealing rings, each of the plurality of first sealing rings surrounding one or more integrated circuit devices, each first sealing ring positioned between the perimeter of the one or more integrated circuit devices and one or more bonding pads coupled to each of the one or more integrated circuit devices; forming on a lid wafer a plurality of second sealing rings corresponding in number and location to the plurality of first sealing rings; forming a sealing layer on either each of the plurality of first sealing rings or each of the plurality of second sealing rings; aligning the device wafer and the lid wafer such that each of the plurality of first sealing rings aligns with the corresponding one of the plurality of second sealing rings leaving a gap between the device wafer and the lid wafer; and mating the device wafer with the lid wafer in a vacuum environment to form a vacuum package within each of the plurality of first sealing rings and second sealing rings, each vacuum package enclosing one or more of the plurality of integrated circuit devices.
- 2. The method of claim 1, further comprising:
forming a plurality of cavities on the lid wafer, each of the plurality of cavities formed within and surrounded by one of the plurality of second sealing rings.
- 3. The method of claim 2, wherein the step of forming a plurality of cavities includes etching a plurality of pits in the lid wafer, each pit surrounded by one of the plurality of second sealing rings thereby leaving a cavity surrounded by one of the plurality of second sealing rings.
- 4. The method of claim 2, wherein the step of forming a plurality of cavities includes:
etching a plurality of holes in a window wafer corresponding to the plurality of integrated circuit devices; and bonding the window wafer to the lid wafer thereby creating a plurality of cavities corresponding to the plurality of integrated circuit devices.
- 5. The method of claim 1, wherein the step of mating the device wafer with the lid wafer includes:
placing the aligned device wafer and lid wafer in a vacuum chamber; generating a vacuum within the vacuum chamber; and closing the gap between the device wafer and lid wafer thereby contacting the plurality of first sealing rings with the plurality of second sealing rings creating a plurality of vacuum packages, each vacuum package enclosing one or more of the plurality of integrated circuit devices.
- 6. The method of claim 1, wherein the step of mating the device wafer with the lid wafer includes:
placing the aligned device wafer and lid wafer in a vacuum furnace; generating a vacuum within the vacuum furnace; outgassing surface areas of the device wafer and the lid wafer by heating the vacuum furnace to a temperature sufficient to outgas the surface areas; closing the gap between the device wafer and lid wafer thereby contacting the plurality of first sealing rings with the plurality of second sealing rings creating a plurality of vacuum packages, each vacuum package enclosing one or more of the plurality of integrated circuit devices; and cooling the device wafer and lid wafer assembly after closing the gap at a rate determined to minimize subsequent outgassing of surfaces within the plurality of vacuum packages while minimizing thermal stresses on the plurality of vacuum packages.
- 7. The method of claim 1, wherein the step of forming a sealing layer includes forming an indium compression seal on each of the second sealing rings.
- 8. The method of claim 1, wherein the step of forming a plurality of first sealing rings includes first forming a plurality of dielectric layer rings, each of the plurality of dielectric layer rings surrounding one or more integrated circuit devices, each dielectric layer ring positioned between the perimeter of the one or more integrated circuit device and one or more bonding pads coupled to each of the one or more integrated circuit devices.
- 9. The method of claim 1, further comprising:
coating the inner surface of the lid wafer within each of the second sealing rings with an anti-reflective coating; and coating the outer surface of the lid wafer with an anti-reflective coating.
- 10. The method of claim 1, further comprising:
forming one or more spacers on the plurality of second sealing rings.
- 11. The method of claim 1, further comprising:
forming one or more bonding pad channels in the lid wafer corresponding in location to the bonding pads on the device wafer.
- 12. The method of claim 1, further comprising:
opening a plurality of probe access channels in the lid wafer following the formation of a plurality of vacuum packages, the plurality of probe access channels providing access to the bonding pads for testing of a plurality of vacuum packaged integrated circuit devices; testing each of the plurality of vacuum packaged integrated circuit devices by probing the bonding pads coupled to each integrated circuit device; and dicing the plurality of vacuum packaged integrated circuit devices following testing thereof.
- 13. A method for vacuum packaging integrated circuit devices, comprising:
forming on a device wafer a plurality of integrated circuit devices; forming a plurality of first sealing rings, each of the plurality of first sealing rings surrounding one or more integrated circuit devices, each first sealing ring positioned between the perimeter of the one or more integrated circuit device and one or more bonding pads coupled to each of the one or more integrated circuit devices; forming on a lid wafer a plurality of second sealing rings corresponding in number and location to the plurality of first sealing rings; depositing a solder layer on either each of the plurality of first sealing rings or each of the plurality of second sealing rings; aligning the device wafer and the lid wafer such that each of the plurality of first sealing rings aligns with the corresponding one of the plurality of second sealing rings leaving a gap between the device wafer and the lid wafer; and mating the device wafer with the lid wafer in a vacuum environment to form a plurality of vacuum packages, each vacuum package enclosing one or more of the plurality of integrated circuit devices.
- 14. The method of claim 13, further comprising:
heating the solder layer prior to mating the device wafer with the lid wafer.
- 15. The method of claim 13, wherein depositing a solder layer comprises positioning a preform solder pattern on the lid wafer in alignment with either the plurality of first sealing rings or the plurality of second sealing rings.
- 16. The method of claim 13, wherein depositing a solder layer comprises electroplating the lid wafer to deposit the solder layer.
- 17. The method of claim 13, wherein depositing a solder layer comprises vacuum deposition of the solder layer.
- 18. The method of claim 13, wherein depositing a solder layer comprises electroless plating.
- 19. A method for vacuum packaging integrated circuit devices, comprising:
forming on a device wafer a plurality of integrated circuit devices; forming a plurality of first sealing rings, each of the plurality of first sealing rings surrounding one or more integrated circuit devices, each first sealing ring positioned between the perimeter of the one or more integrated circuit device and one or more bonding pads coupled to each of the one or more integrated circuit devices; forming on a lid wafer a plurality of second sealing rings corresponding in number and location to the plurality of first sealing rings; forming a solder layer on either each of the plurality of first sealing rings or each of the plurality of second sealing rings; aligning the device wafer and the lid wafer such that each of the plurality of first sealing rings aligns with the corresponding one of the plurality of second sealing rings leaving a gap between the device wafer and the lid wafer; and mating the device wafer with the lid wafer in a vacuum environment to form a plurality of vacuum packages, each vacuum package enclosing one or more of the plurality of integrated circuit devices.
- 20. The method of claim 19, wherein forming a plurality of first sealing rings comprises forming a solder adhesion surface on each of the plurality of first sealing rings.
- 21. The method of claim 20, wherein forming a solder adhesion surface comprises:
depositing a layer of titanium; depositing a layer of palladium on the layer of titanium; and depositing a layer of gold on the layer of palladium.
- 22. The method of claim 19, wherein forming a plurality of second sealing rings comprises forming on a lid wafer a plurality of solder adhesion surfaces corresponding in number and location to the plurality of first sealing rings.
- 23. The method of claim 22, wherein forming a plurality of solder adhesion surfaces comprises:
depositing a layer of titanium; depositing a layer of palladium on the layer of titanium; and depositing a layer of gold on from the layer of palladium.
- 24. A vacuum package containing one or more integrated circuit devices, comprising:
one or more integrated circuit devices formed on device wafer, said devices having one or more associated bonding pads; a sealing ring formed on the device wafer between the perimeter of the one or more integrated circuit devices and the one or more bonding pads coupled to the one or more integrated circuit devices; and a vacuum package lid sealed to the sealing ring, the vacuum package lid providing a vacuum cell for the one or more integrated circuit devices.
- 25. The vacuum package of claim 24, further comprising:
one or more spacers formed on the sealing ring.
- 26. The vacuum package of claim 24, wherein the vacuum package lid includes a cavity formed therein and operable to increase the volume of the vacuum cell thereby decreasing the pressure level within the vacuum cell.
- 27. A vacuum package for integrated circuit devices, comprising:
a sealing ring having one or more spacers, the sealing ring in a designated area on a substrate material, the sealing ring surrounding one or more integrated circuit devices; and a sealing layer on the sealing ring.
- 28. The vacuum package of claim 27, further comprising:
a dielectric layer formed on the area designated as the sealing ring.
- 29. The vacuum package of claim 27, wherein the one or more spacers comprise silicon nitride.
- 30. The vacuum package of claim 27, wherein the one or more spacers are formed from the substrate material.
- 31. The vacuum package of claim 27, wherein the sealing layer comprises an indium compression seal.
- 32. The vacuum package of claim 27, wherein the sealing layer comprises a solder layer.
Government Interests
[0001] This invention was made under Government Contract No. F30602-97-C-0127. The government has certain rights in this invention.
Divisions (1)
|
Number |
Date |
Country |
Parent |
09496820 |
Feb 2000 |
US |
Child |
09928031 |
Aug 2001 |
US |