IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0199856
(2002-07-19)
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발명자
/ 주소 |
- Bao, Tien-I
- Chen, Bi-Trong
- Chen, Ying-Ho
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출원인 / 주소 |
- Taiwan Semiconductor Manufacturing Company, Ltd.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
2 인용 특허 :
8 |
초록
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A new method is provided for the creation of dummy plugs in support of creating a robust structure of overlying interconnect traces. A pattern of holes for dummy plugs is etched stopping at an etch stop layer, the etch stop layer is then removed from the bottom of the holes that have been created wh
A new method is provided for the creation of dummy plugs in support of creating a robust structure of overlying interconnect traces. A pattern of holes for dummy plugs is etched stopping at an etch stop layer, the etch stop layer is then removed from the bottom of the holes that have been created whereby this removal is extended into an underlying layer of insulating material. The pattern of holes is filled with a metal, preferably copper, excess metal is removed by methods of Chemical Mechanical Polishing, leaving in place a pattern of metal plugs that penetrate through layers of insulation material and through layers of etch stop material and into an underlying layer of semiconductor material.
대표청구항
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1. A method of providing for a stable structure by creating dummy plugs over a semiconductor substrate, comprising the steps of:providing a semiconductor substrate, said substrate having been provided with multiple layers of metal interconnect traces separated by a layer of insulating material; depo
1. A method of providing for a stable structure by creating dummy plugs over a semiconductor substrate, comprising the steps of:providing a semiconductor substrate, said substrate having been provided with multiple layers of metal interconnect traces separated by a layer of insulating material; depositing a layer of etch stop material over said substrate; depositing a layer of insulating material over said layer of etch stop material; etching holes for a pattern of dummy plugs through said layer of insulating material and through said layer of etch stop material, extending the dummy plugs into the surface of the underlying substrate, said pattern of dummy plugs being adjusted for maximum stress reduction in said layer of insulating material and said layer of etch stop material, said pattern of dummy plugs further being adjusted to eliminate effects of uneven plug fill during creation of the dummy plugs; and filling said holes with a metal, thereby providing for creating a stable and strengthened stack of overlying interconnect traces separated by a layer of insulating material while further allowing for a reduction in dummy plug density. 2. The method of claim 1, said insulating material comprising a low-k dielectric material.3. The method of claim 1, said metal comprising copper.4. The method of claim 1, said holes for a pattern of dummy plugs overlying a blanket surface area of said substrate.5. The method of claim 1, said filling said holes with a metal comprising a step of blanket deposition of said metal over said layer of insulating material followed by a step of removing excess metal from said layer of insulating material.6. The method of claim 5, said removing excess metal from said layer of insulating material comprising applying methods of Chemical Mechanical Polishing (CMP), thereby eliminating peeling of insulating material during said applying methods of CMP.7. A method of providing for a stable structure by creating dummy plugs through at a layer of low-k dielectric material, comprising the steps of:providing a semiconductor substrate, said substrate having been provided with multiple layers of metal interconnect traces separated by a layer of low-k dielectric; depositing a layer of etch stop material over said substrate; depositing a layer of low-k dielectric material said layer of etch stop material; etching holes for a pattern of dummy plugs through said layer of low-k dielectric material and through said layer of etch stop material, extending the dummy plugs into the surface of the underlying substrate, said pattern of dummy plugs being adjusted for maximum stress reduction in said layer of low-k dielectric material and said layer of etch stop material, said pattern of dummy plugs further being adjusted to eliminate effects of uneven plug fill during creation of the dummy plugs; and filling said holes with a metal, thereby providing for creating a stable and strengthened stack of overlying interconnect traces separated by a layer of low-k dielectric while further allowing for a reduction in dummy plug density. 8. The method of claim 7, said metal comprising copper.9. The method of claim 7, said holes for a pattern of dummy plugs overlying a blanket surface area of said substrate.10. The method of claim 7, said filling said holes with a metal comprising a step of blanket deposition of said metal over said layer of low-k dielectric followed by a step of removing excess metal from said layer of low-k dielectric.11. The method of claim 10, said removing excess metal from said layer of low-k dielectric comprising applying methods of Chemical Mechanical Polishing (CMP), thereby eliminating peeling of low-k dielectric during said applying methods of CMP.12. A method of providing for a stable structure by creating dummy copper plugs through a layer of low-k dielectric material, comprising the steps of:providing a semiconductor substrate, said substrate having been provided with multiple layers of metal interconnect traces separated by a layer of insulating material; depositing a layer of etch stop material over said substrate; depositing a layer of low-k dielectric material over said layer of etch stop material; etching holes for a pattern of dummy plugs through said layer of low-k dielectric material and through said layer of etch stop material, extending the dummy plugs into the surface of the underlying substrate, said pattern of dummy plugs being adjusted for maximum stress reduction in said layer of low-k dielectric material and said layer of etch stop material, said pattern of dummy plugs further being adjusted to eliminate effects of uneven plug fill during creation of the dummy plugs; and filling said holes with copper, thereby providing for creating a stable and strengthened stack of overlying interconnect traces separated by said layer of low-k dielectric while further allowing for a reduction in dummy plug density. 13. The method of claim 12, said holes for a pattern of dummy plugs overlying a blanket surface area of said substrate.14. The method of claim 12, said filling said holes with a copper comprising a step of blanket deposition of said copper over said layer of low-k dielectric material followed by a step of removing excess metal from said layer of low-k dielectric material.15. The method of claim 14, said removing excess copper from said layer of low-k dielectric material comprising applying methods of Chemical Mechanical Polishing (CMP), thereby eliminating peeling of insulating material during said applying methods of CMP.16. A method of providing for a stable structure by creating dummy plugs as part of the creation of semiconductor devices, comprising the steps of:providing a semiconductor substrate, said substrate having been provided with multiple layers of metal interconnect traces separated by at least one layer of insulating material; depositing a first layer of etch stop material over said substrate; depositing a first layer of insulating material over said first layer of etch stop material; depositing at least one second layer of etch stop material over said first layer of insulating material; depositing at least one second layer of insulating material over said at least one second layer of etch stop material; etching holes for a pattern of dummy plugs through said at least one second layer of insulating material and through said at least one second layer of etch stop material, extending the dummy plugs into the surface of the underlying first layer of insulating material, said pattern of dummy plugs being adjusted for maximum stress reduction in said at least one second layer of insulating material and said at least one second layer of etch stop material and said first layer of insulating material, said pattern of dummy plugs further being adjusted to eliminate effects of uneven plug fill during creation of the dummy plugs; and filling said holes with a metal, thereby providing for creating a stable and strengthened stack of overlying interconnect traces separated by said at least one second layer of insulating material and said at least one second layer of etch stop material while further allowing for a reduction in dummy plug density. 17. The method of claim 16, said insulating material comprising a low-k dielectric material.18. The method of claim 16, said metal comprising copper.19. The method of claim 16, said holes for a pattern of dummy plugs overlying a blanket surface area of said substrate.20. The method of claim 16, said filling said holes with a metal comprising a step of blanket deposition of said metal over said at least one second layer of insulating material followed by a step of removing excess metal from said at least one second layer of insulating material.21. The method of claim 20, said removing excess metal from said at least one layer of insulating material comprising applying methods of Chemical Mechanical Polishing (CMP), thereby eliminating peeling of insulating material during said applying methods of CMP.22. A method of providing for a stable structure by creating dummy plugs through at least one layer of low-k dielectric material, comprising the steps of:providing a semiconductor substrate, said substrate having been provided with multiple layers of metal interconnect traces separated by at least one layer of low-k dielectric; depositing a first layer of etch stop material over said substrate; depositing a first layer of low-k dielectric material over said first layer of etch stop material; depositing at least one second layer of etch stop material over said first layer of low-k dielectric material; depositing at least one second layer of low-k dielectric material over said at least one second layer of etch stop material; etching holes for a pattern of dummy plugs through said at least one second layer of low-k dielectric material and through said at least one second layer of etch stop material, extending the dummy plugs into the surface of the underlying first layer of low-k dielectric material, said pattern of dummy plugs being adjusted for maximum stress reduction in said at least one second layer of low-k dielectric material and said at least one second layer of etch stop material and said first layer of low-k dielectric material, said pattern of dummy plugs further being adjusted to eliminate effects of uneven plug fill during creation of the dummy plugs; and filling said holes with a metal, thereby providing for creating a stable and strengthened stack of overlying interconnect traces separated by said at least one second layer of low-k dielectric material and said at least one second layer of etch stop material while further allowing for a reduction in dummy plug density. 23. The method of claim 22, said metal comprising copper.24. The method of claim 22, said holes for a pattern of dummy plugs overlying a blanket surface area of said substrate.25. The method of claim 22, said filling said holes with a metal comprising a step of blanket deposition of said metal over said at least one second layer of low-k dielectric material followed by a step of removing excess metal from said at least one second layer of low-k dielectric material.26. The method of claim 25, said removing excess metal from the surface of said at least one second layer of low-k dielectric material comprising applying methods of Chemical Mechanical Polishing (CMP), thereby eliminating peeling of low-k dielectric material during said applying methods of CMP.27. A method of providing for a stable structure by creating dummy copper plugs through at least one layer of low-k dielectric material, comprising the steps of:providing a semiconductor substrate, said substrate having been provided with multiple layers of metal interconnect traces separated by at least one layer of low-k dielectric material; depositing a first layer of etch stop material over said substrate; depositing a first layer of low-k dielectric material over said first layer of etch stop material; depositing at least one second layer of etch stop material over said first layer of low-k dielectric material; depositing at least one second layer of low-k dielectric material over said at least one second layer of etch stop material; etching holes for a pattern of dummy plugs through said at least one second layer of low-k dielectric material and through said at least one second layer of etch stop material, extending said dummy plugs into the surface of the underlying first layer of low-k dielectric material, said pattern of dummy plugs being adjusted for maximum stress reduction in said at least one second layer of low-k dielectric material and said at least one second layer of etch stop material and said first layer of low-k dielectric material, said pattern of dummy plugs further being adjusted to eliminate effects of uneven plug fill during creation of the dummy plugs; and filling said holes with copper, thereby providing for creating a stable and strengthened stack of overlying interconnect traces separated by said at least one second layer of low-k dielectric material and said at least one second layer of etch stop material while further allowing for a reduction in dummy plug density. 28. The method of claim 27, said holes for a pattern of dummy plugs overlying a blanket surface area of said substrate.29. The method of claim 27, said filling said holes with copper comprising a step of blanket deposition of said copper over said at least one second layer of low-k dielectric material followed by a step of removing excess copper from said at least one second layer of low-k dielectric material.30. The method of claim 29, said removing excess copper from said at least one second layer of low-k dielectric material comprising applying methods of Chemical Mechanical Polishing (CMP), thereby eliminating peeling of insulating material during said applying methods of CMP.31. A method of providing for a stable structure by creating dummy plugs as part of the creation of semiconductor devices, comprising the steps of:providing a semiconductor substrate, said substrate having been provided with multiple layers of metal interconnect traces separated by a layer of insulating material; depositing a first layer of etch stop material over said substrate; depositing a first layer of semiconductor material over said first layer of etch stop material; depositing at least one second layer of etch stop material over said first layer of semiconductor material; depositing at least one second layer of insulating material over said at least one second layer of etch stop material; etching holes for a pattern of dummy plugs through said at least one second layer of insulating material and through said at least one second layer of etch stop material, extending said dummy plugs into the surface of the underlying layer of semiconductor material, said pattern of dummy plugs being adjusted for maximum stress reduction in said at least one second layer of insulating material and said at least one second layer of etch stop material and said underlying layer of semiconductor material, said pattern of dummy plugs further being adjusted to eliminate effects of uneven plug fill during creation of the dummy plugs; and filling said holes with a metal, thereby providing for creating a stable and strengthened stack of overlying interconnect traces separated by said at least one second layer of insulating material and said at least one second layer of etch stop material while further allowing for a reduction in dummy plug density. 32. The method of claim 31, said insulating material comprising a low-k dielectric material.33. The method of claim 31, said metal comprising copper.34. The method of claim 31, said holes for a pattern of dummy plugs overlying a blanket surface area of said substrate.35. The method of claim 31, said filling said holes with a metal comprising a step of blanket deposition of said metal over said at least one second layer of insulating material followed by a step of removing excess metal said at least one second layer of insulating material.36. The method of claim 35, said removing excess metal from said at least one layer of insulating material comprising applying methods of Chemical Mechanical Polishing (CMP), thereby eliminating peeling of insulating material during said applying methods of CMP.37. A method of providing for a stable structure by creating dummy plugs through at least one layer of low-k dielectric material, comprising the steps of:providing a semiconductor substrate, said substrate having been provided with multiple layers of metal interconnect traces separated by a layer of insulating material; depositing a first layer of etch stop material over said substrate; depositing a first layer of low-k dielectric material over said first layer of etch stop material; depositing at least one second layer of etch stop material over said first layer of low-k dielectric material; depositing at least one second layer of low-k dielectric material over said at least one second layer of etch stop material; etching holes for a pattern of dummy plugs through said at least one second layer of low-k dielectric material and through said at least one second layer of etch stop material, extending the dummy plugs into the surface of the underlying first layer of low-k dielectric material, said pattern of dummy plugs being adjusted for maximum stress reduction in said at least one second layer of low-k dielectric material and said at least one second layer of etch stop material and said first layer of low-k dielectric material, said pattern of dummy plugs further being adjusted to eliminate effects of uneven plug fill during creation of the dummy plugs; and filling said holes with a metal, thereby providing for creating a stable and strengthened stack of overlying interconnect traces separated by said at least one second layer of low-k dielectric material and by said at least one second layer of etch stop material while further allowing for a reduction in dummy plug density. 38. The method of claim 37, said metal comprising copper.39. The method of claim 37, said holes for a pattern of dummy plugs overlying a blanket surface area of said substrate.40. The method of claim 37, said filling said holes with a metal comprising a step of blanket deposition of said metal over said at least one second layer of low-k dielectric material followed by a step of removing excess metal from said at least one second layer of low-k dielectric material.41. The method of claim 40, said removing excess metal from said at least one second layer of low-k dielectric material comprising applying methods of Chemical Mechanical Polishing (CMP), thereby eliminating peeling of low-k dielectric material during said applying methods of CMP.42. A method of providing for a stable structure by creating dummy copper plugs through at least one layer of low-k dielectric material, comprising the steps of:providing a semiconductor substrate, said substrate having been provided with multiple layers of metal interconnect traces separated by a layer of insulating material; depositing a first layer of etch stop material over said substrate; depositing a first layer of low-k dielectric material over said first layer of etch stop material; depositing at least one second layer of etch stop material over said first layer of low-k dielectric material; depositing at least one second layer of low-k dielectric material over said at least one second layer of etch stop material; etching holes for a pattern of dummy plugs through said at least one second layer of low-k dielectric material and through said at least one second layer of etch stop material, extending said dummy plugs into the surface of the underlying first layer of low-k dielectric material, said pattern of dummy plugs being adjusted for maximum stress reduction in said at least one second layer of low-k dielectric material and said at least one second layer of etch stop material and said first layer of low-k dielectric material, said pattern of dummy plugs further being adjusted to eliminate effects of uneven plug fill during creation of the dummy plugs; and filling said holes with copper, thereby providing for creating a stable and strengthened stack of overlying interconnect traces separated by said at least one second layer of low-k dielectric material and said at least one second layer of etch stop material while further allowing for a reduction in dummy plug density. 43. The method of claim 42, said holes for a pattern of dummy plugs overlying a blanket surface area of said substrate.44. The method of claim 42, said filling said holes with a copper comprising a step of blanket deposition of said copper over said at least one second layer of insulating material followed by a step of removing excess copper from said at least one second layer of low-k dielectric.45. The method of claim 44, said removing excess metal from said at least one second layer of low-k dielectric comprising applying methods of Chemical Mechanical Polishing (CMP), thereby eliminating peeling of insulating material during said applying methods of CMP.
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