Integrated circuit and method for fabricating the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-023/48
H01L-023/52
출원번호
US-0197630
(2011-08-03)
등록번호
US-8471388
(2013-06-25)
발명자
/ 주소
Lin, Mou-Shiung
Lee, Jin-Yuan
출원인 / 주소
Megica Corporation
대리인 / 주소
Seyfarth Shaw LLP
인용정보
피인용 횟수 :
6인용 특허 :
71
초록▼
A method for fabricating an integrated circuit (IC) chip includes forming a metal trace having a thickness of between 5 μm and 27 μm over a semiconductor substrate, and forming a passivation layer on the metal trace, wherein the passivation layer includes a layer of silicon nitride on the metal trac
A method for fabricating an integrated circuit (IC) chip includes forming a metal trace having a thickness of between 5 μm and 27 μm over a semiconductor substrate, and forming a passivation layer on the metal trace, wherein the passivation layer includes a layer of silicon nitride on the metal trace and a layer of silicon oxide on the layer of silicon nitride, or includes a layer of silicon oxynitride on the metal trace and a layer of silicon oxide on the layer of silicon oxynitride.
대표청구항▼
1. An IC chip comprising: a semiconductor substrate;a transistor having a portion in said semiconductor substrate;a first dielectric layer over said semiconductor substrate;a first patterned metal layer over said first dielectric layer;a second patterned metal layer over said first dielectric layer
1. An IC chip comprising: a semiconductor substrate;a transistor having a portion in said semiconductor substrate;a first dielectric layer over said semiconductor substrate;a first patterned metal layer over said first dielectric layer;a second patterned metal layer over said first dielectric layer and said first patterned metal layer;a second dielectric layer between said first and second patterned metal layers;a third dielectric layer over said second dielectric layer and said second patterned metal layer, wherein said third dielectric layer comprises a first nitride layer, wherein a first opening in said third dielectric layer is over a first contact point of said second patterned metal layer, and said first contact point is at a bottom of said first opening;a third patterned metal layer over a top surface of said third dielectric layer and on said first contact point, wherein said third patterned metal layer is connected to said first contact point through said first opening, wherein said third patterned metal layer comprises a first adhesion layer and a first electroplated copper layer over said first adhesion layer, wherein said first electroplated copper layer has a sidewall not covered by said first adhesion layer;a second nitride layer over a top surface of said third patterned metal layer and said top surface of said third dielectric layer;a first polymer layer over said second nitride layer, wherein a second opening through said first polymer layer and said second nitride layer is over a second contact point of said third patterned metal layer, and said second contact point is at a bottom of said second opening, wherein said second contact point is connected to said first contact point through said first opening; anda fourth patterned metal layer over said semiconductor substrate, wherein said fourth patterned metal layer is connected to said second contact point through said second opening, wherein said fourth patterned metal layer comprises a second adhesion layer and a second electroplated copper layer over said second adhesion layer, wherein said second electroplated copper layer has a sidewall not covered by said second adhesion layer. 2. The IC chip of claim 1, wherein said second patterned metal layer comprises a third electroplated copper layer. 3. The IC chip of claim 1, wherein said first adhesion layer comprises titanium. 4. The IC chip of claim 1, wherein said first adhesion layer comprises titanium nitride. 5. The IC chip of claim 1, wherein said second adhesion layer comprises titanium. 6. The IC chip of claim 1, wherein said second adhesion layer comprises titanium nitride. 7. The IC chip of claim 1, wherein a third opening in said third dielectric layer is over a third contact point of said second patterned metal layer, and said third contact point is at a bottom of said third opening, wherein said third patterned metal layer is further on said third contact point, wherein said first contact point is connected to said third contact point through said third patterned metal layer, wherein said second contact point is connected to said third contact point through said third opening. 8. The IC chip of claim 1, wherein a third opening in said third dielectric layer is over a third contact point of said second patterned metal layer, and said third contact point is at a bottom of said third opening, wherein said third patterned metal layer is further on said third contact point, wherein said first contact point is connected to said third contact point through, in sequence, a first metal interconnect of said third patterned metal layer, said fourth patterned metal layer and a second metal interconnect of said third patterned metal layer, wherein said first metal interconnect has a portion spaced apart from said second metal interconnect. 9. The IC chip of claim 1 further comprising a second polymer layer over said fourth patterned metal layer and said first polymer layer. 10. The IC chip of claim 1, wherein said fourth patterned metal layer is further on said first polymer layer and said second contact point. 11. The IC chip of claim 1, wherein said first nitride layer comprises silicon nitride. 12. The IC chip of claim 1, wherein said first nitride layer comprises silicon oxynitride. 13. The IC chip of claim 1, wherein said second nitride layer comprises silicon nitride. 14. The IC chip of claim 1, wherein said second nitride layer is further on said top surface of said third patterned metal layer, a sidewall of said third patterned metal layer and said top surface of said third dielectric layer. 15. An IC chip comprising: a semiconductor substrate;a transistor having a portion in said semiconductor substrate;a first dielectric layer over said semiconductor substrate;a first patterned metal layer over said first dielectric layer;a second patterned metal layer over said first dielectric layer and said first patterned metal layer, wherein said second patterned metal layer comprises a first electroplated copper layer;a second dielectric layer between said first and second patterned metal layers;a third dielectric layer over said second dielectric layer and said second patterned metal layer, wherein said third dielectric layer comprises a first nitride layer, wherein a first opening in said third dielectric layer is over a first contact point of said second patterned metal layer, and said first contact point is at a bottom of said first opening, wherein a second opening in said third dielectric layer is over a second contact point of said second patterned metal layer, and said second contact point is at a bottom of said second opening;a first metal interconnect over a top surface of said third dielectric layer and on said first contact point, wherein said first metal interconnect is connected to said first contact point through said first opening;a second metal interconnect over said top surface of said third dielectric layer and on said second contact point, wherein said second metal interconnect is connected to said second contact point through said second opening, wherein said second metal interconnect comprises a first metal layer and a second metal layer over said first metal layer, wherein said second metal layer has a sidewall not covered by said first metal layer, wherein there is no dielectric layer between said first and second metal layers;a second nitride layer over said first and second metal interconnects and said third dielectric layer, wherein a third opening in said second nitride layer is over a third contact point of said first metal interconnect, and a fourth opening in said second nitride layer is over a fourth contact point of said second metal interconnect, wherein said third contact point is connected to said first contact point through said first opening, and said fourth contact point is connected to said second contact point through said second opening; anda third metal interconnect over said second nitride layer and on said third and fourth contact points, wherein said third contact point is connected to said fourth contact point through said third metal interconnect. 16. The IC chip of claim 15, wherein said first metal layer comprises titanium. 17. The IC chip of claim 15, wherein said first metal layer comprises titanium nitride. 18. The IC chip of claim 15, wherein said first metal layer comprises tantalum. 19. The IC chip of claim 15, wherein said first metal layer comprises copper. 20. The IC chip of claim 15, wherein said third metal interconnect comprises a third metal layer and a second electroplated copper layer over said third metal layer, wherein said second electroplated copper layer has a sidewall not covered by said third metal layer, wherein there is no dielectric layer between said third metal layer and said third electroplated copper layer. 21. The IC chip of claim 20, wherein said third metal layer comprises titanium. 22. The IC chip of claim 20, wherein said third metal layer comprises titanium nitride. 23. The IC chip of claim 15, wherein a fifth opening in said third dielectric layer is over a fifth contact point of said second patterned metal layer, and said fifth contact point is at a bottom of said fifth opening, wherein said first metal interconnect is further on said fifth contact point, wherein said first contact point is connected to said fifth contact point through said first metal interconnect, wherein said fifth contact point is connected to said second contact point through, in sequence, said first metal interconnect, said third metal interconnect and said second metal interconnect. 24. The IC chip of claim 15 further comprising a polymer layer over said second nitride layer, wherein a fifth opening in said polymer layer is over said third contact point, and a sixth opening in said polymer layer is over said fourth contact point, wherein said third metal interconnect is further on a top surface of said polymer layer. 25. The IC chip of claim 15 further comprising a polymer layer over said third metal interconnect and said second nitride layer. 26. The IC chip of claim 15, wherein said first metal interconnect is further on said top surface of said third dielectric layer, wherein there is no polymer layer between said first metal interconnect and said top surface of said third dielectric layer. 27. The IC chip of claim 15, wherein said first nitride layer comprises silicon nitride. 28. The IC chip of claim 15, wherein said first nitride layer comprises silicon oxynitride. 29. The IC chip of claim 15, wherein said second nitride layer comprises silicon nitride. 30. The IC chip of claim 15, wherein said second nitride layer comprises a portion between said first and second metal interconnects.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (71)
Bohr, Mark T., Alternate bump metallurgy bars for power and ground routing.
Golshan Shahin (Midland TX) St. Martin Craig A. (Midland TX) Rhodine Craig W. (Midland TX), Configuration and method for positioning semiconductor device bond pads using additional process layers.
Fillion Raymond A. (Niskayuna NY) Wildi Eric J. (Niskayuna NY) Korman Charles S. (Schenectady NY) El-Hamamsy Sayed-Amr (Schenectady NY) Gasworth Steven M. (Glenville NY) DeVre Michael W. (Scotia NY) , Direct stacked and flip chip power semiconductor device structures.
Efland Taylor R. (Richardson TX) Cotton Dave (Plano TX) Skelton Dale J. (Plano TX), ESD protection structure using LDMOS diodes with thick copper interconnect.
Lamson Michael A. (Van Alstyne TX) Edwards Darvin R. (Dallas TX), Integrated circuit device having bumped power supply buses over active surface areas and method of manufacture thereof.
Efland, Taylor R.; Abbott, Donald C.; Bucksch, Walter; Corsi, Marco; Shen, Chi-Cheong; Erdeljac, John P.; Hutter, Louis N.; Mai, Quang X.; Wagensohner, Konrad; Williams, Charles E.; Buschbom, Milton , Integrated circuit with bonding layer over active circuitry.
Shen Chi-Cheong ; Abbott Donald C. ; Bucksch Walter,DEX ; Corsi Marco ; Efland Taylor Rice ; Erdeljac John P. ; Hutter Louis Nicholas ; Mai Quang ; Wagensohner Konrad,DEX ; Williams Charles Edward, Integrated circuit with bonding layer over active circuitry.
Mistry Addi Burjorji ; Sarihan Vijay ; Kleffner James H. ; Carney George F., Method and apparatus for stress relief in solder bump formation on a semiconductor device.
Peters Johannes S. (Nijmegen NLX), Method of manufacturing a semiconductor device, in which a metallization with a thick connection electrode is provided o.
Costrini Gregory ; Goldblatt Ronald Dean ; Heidenreich ; III John Edward ; McDevitt Thomas Leddy, Method/structure for creating aluminum wirebound pad on copper BEOL.
Cronin John Edward (Milton VT) Howell Wayne John (Williston VT) Kalter Howard Leo (Colchester VT) Marmillion Patricia Ellen (Colchester VT) Palagonia Anthony (Underhill VT) Pierson Bernadette Ann (So, Methods for precise definition of integrated circuit chip edges.
Kim, Sarah E.; Lee, Kevin J.; George, Anna M., Methods of processing thick ILD layers using spray coating or lamination for C4 wafer level thick metal integrated flow.
Quinn ; Daniel J. (Carrollton TX) Mulholland Wayne A. (Plano TX) Bond Robert H. (Carrollton TX) Olla Michael A. (Flower Mound TX) Cupples Jerry S. (Carrollton TX) Tsitovsky Ilya L. (Farmers Branch TX, Process of forming integrated circuits with contact pads in a standard array.
Leibovitz Jacques ; Yu Park-Kee ; Zhu Ya Yun ; Cobarruviaz Maria L. ; Swindlehurst Susan J. ; Chang Cheng-Cheng ; Scholz Kenneth D., Redistribution layer and under bump material structure for converting periphery conductive pads to an array of solder bumps.
Antol,Joze E.; Seitzer,Philip William; Chesire,Daniel Patrick; Mengel,Rafe Carl; Archer,Vance Dolvan; Gans,Thomas B.; Kook,Taeho; Merchant,Sailesh M., Reinforced bond pad for a semiconductor device.
Akagawa Masatoshi,JPX ; Higashi Mitsutoshi,JPX ; Iizuka Hajime,JPX ; Arai Takehiko,JPX, Semiconductor device having an element with circuit pattern thereon.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.