IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0962395
(2007-12-21)
|
등록번호 |
US-7812424
(2010-11-01)
|
발명자
/ 주소 |
- Barth, Hans-Joachim
- Tews, Helmut Horst
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
9 인용 특허 :
12 |
초록
▼
Structures and methods of forming moisture barrier capacitor on a semiconductor component are disclosed. The capacitor is located on the periphery of a semiconductor chip and includes an inner plate electrically connected to a voltage node, an outer plate with fins for electrically connecting to a d
Structures and methods of forming moisture barrier capacitor on a semiconductor component are disclosed. The capacitor is located on the periphery of a semiconductor chip and includes an inner plate electrically connected to a voltage node, an outer plate with fins for electrically connecting to a different voltage node.
대표청구항
▼
What is claimed is: 1. A semiconductor chip comprising: an inner region, the inner region comprising active circuitry; a periphery region that includes no active circuitry; an inner capacitor plate disposed within the periphery region adjacent the inner region, wherein the inner capacitor plate is
What is claimed is: 1. A semiconductor chip comprising: an inner region, the inner region comprising active circuitry; a periphery region that includes no active circuitry; an inner capacitor plate disposed within the periphery region adjacent the inner region, wherein the inner capacitor plate is electrically connected to a voltage node in the active circuitry; and an outer capacitor plate disposed between the inner capacitor plate and a chip edge, wherein the outer capacitor plate is electrically connected to a different voltage node in the active circuitry, wherein the outer capacitor plate is capacitively coupled to the inner capacitor plate, wherein the outer capacitor plate and the inner capacitor plate do not overlap and are laterally separated, wherein the outer capacitor plate comprises first vias adjacent a first edge of the outer capacitor plate and second vias adjacent an opposite second edge of the outer capacitor plate, the second vias being conductively coupled to the first vias, and wherein only the first vias are capacitively coupled to the inner capacitor plate. 2. The semiconductor chip of claim 1, wherein the inner capacitor plate and the outer capacitor plate form a single large capacitor. 3. The semiconductor chip of claim 1, further comprising a crack stop disposed between the outer capacitor plate and the chip edge. 4. The semiconductor chip of claim 1, wherein the outer capacitor plate comprises a moisture barrier, wherein the moisture barrier comprises the second vias, and wherein the moisture barrier comprises additional vias and a plurality of metal lines. 5. The semiconductor chip of claim 4, wherein each of the inner capacitor plate and outer capacitor plate comprises vertically stacked metal lines and vias. 6. The semiconductor chip of claim 5, wherein at least a portion of the vertically stacked metal lines and the vias are disposed in a low-k insulating material. 7. A semiconductor chip comprising: an inner region, the inner region comprising active circuitry; a periphery region that includes no active circuitry; an inner capacitor plate disposed within the periphery region adjacent the inner region, wherein the inner capacitor plate is electrically connected to a voltage node in the active circuitry; and an outer capacitor plate disposed between the inner capacitor plate and a chip edge, wherein the outer capacitor plate is electrically connected to a different voltage node in the active circuitry, wherein the outer capacitor plate is capacitively coupled to the inner capacitor plate, wherein the inner capacitor plate and the outer capacitor plate form a single large capacitor, wherein a portion of the inner capacitor plate and the outer capacitor plate are separated by an insulating material, wherein a dielectric constant of the insulating material is not less than that of silicon dioxide, and wherein a corresponding portion between the outer capacitor plate and the chip edge is separated by a low-k insulating material. 8. The semiconductor chip of claim 7, further comprising a crack stop disposed between the outer capacitor plate and the chip edge. 9. The semiconductor chip of claim 7, wherein the outer capacitor plate comprises a moisture barrier, wherein the moisture barrier comprises the second vias, and wherein the moisture barrier comprises additional vias and a plurality of metal lines. 10. The semiconductor chip of claim 7, wherein each of the inner capacitor plate and outer capacitor plate comprises vertically stacked metal lines and vias. 11. The semiconductor chip of claim 10, wherein at least a portion of the vertically stacked metal lines and the vias are disposed in the low-k insulating material. 12. The semiconductor chip of claim 7, wherein the outer capacitor plate is electrically connected by fins, wherein at least a portion of the fins are disposed above the inner capacitor plate and embedded in an oxide or nitride region, and wherein the outer capacitor plate extends vertically without disruption in the low-k insulating material. 13. A semiconductor chip of comprising: an inner region, the inner region comprising active circuitry; a periphery region that includes no active circuitry; an inner capacitor plate disposed within the periphery region adjacent the inner region, wherein the inner capacitor plate is electrically connected to a voltage node in the active circuitry; and an outer capacitor plate disposed between the inner capacitor plate and a chip edge, wherein the outer capacitor plate is electrically connected to a different voltage node in the active circuitry, wherein the outer capacitor plate is capacitively coupled to the inner capacitor plate, wherein the outer capacitor plate comprises a moisture barrier, wherein the moisture barrier comprises additional vias and additional length and width of metal lines, wherein each of the inner capacitor plate and outer capacitor plate comprises vertically stacked metal lines and vias, wherein at least a portion of the vertically stacked metal lines and the vias are disposed in a low-k insulating material, wherein the outer capacitor plate is electrically connected by fins, wherein at least a portion of the fins are disposed above the inner capacitor plate and embedded in an oxide or nitride region, and wherein the outer capacitor plate extends vertically without disruption in the low-k insulating material. 14. The semiconductor chip of claim 13, further comprising a crack stop disposed between the outer capacitor plate and the chip edge. 15. The semiconductor chip of claim 13, wherein the outer capacitor plate comprises a moisture barrier, wherein the moisture barrier comprises the second vias, and wherein the moisture barrier comprises additional vias and a plurality of metal lines. 16. A semiconductor chip comprising: an inner region, the inner region comprising active circuitry; a periphery region that includes no active circuitry; inner capacitor plates disposed adjacent the inner region, wherein each inner capacitor plate is electrically insulated from each other, and wherein each of the inner capacitor plates is individually connected to an independent voltage node in the active circuitry; and an outer capacitor plate disposed between the inner capacitor plates and a chip edge, wherein the outer capacitor plate is electrically connected to a different voltage node in the active circuitry, and wherein the outer capacitor plate is capacitively coupled to the inner capacitor plate. 17. The semiconductor chip of claim 16, further comprising a crack stop between the chip edge and the outer capacitor plate. 18. The semiconductor chip of claim 16, further comprising: metal lines for electrically connecting the outer capacitor plate to the different voltage node in the active circuitry, and vias and metal lines disposed in the outer capacitor plate for capacitively coupling to the inner capacitor plates. 19. The semiconductor chip of claim 18, further comprising: a moisture barrier disposed in the outer capacitor plate, the moisture barrier comprising additional vias and metal lines, wherein at least a portion of the moisture barrier is disposed in a low-k material region. 20. The semiconductor chip of claim 19, wherein the outer capacitor plate extends vertically without disruption in the low-k material region. 21. A semiconductor chip comprising an outer region and an inner region, the inner region comprising active circuitry, the outer region comprising: an inner capacitor plate disposed adjacent the inner region, wherein the inner capacitor plate is electrically connected to a voltage node in the active circuitry; and an outer capacitor plate disposed between the inner capacitor plate and a dicing kerf, the outer capacitor plate comprising: fins for electrically connecting the outer capacitor plate to the active circuitry, wherein at least a portion of the fins are disposed above the inner capacitor plate and embedded in an oxide or nitride region, first vias and first metal lines for capacitively coupling to the inner capacitor plate, and second vias and second metal lines, at least a portion of the second vias comprising a metallic core and an outer layer comprising an oxide of the metallic core wherein at least a portion of the second vias and second metal lines is disposed in a low-k material region, and wherein the outer capacitor plate extends vertically without disruption in the low-k material region.
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