Device for detecting temperature variations in a chip
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01K-007/00
G01K-003/00
출원번호
US-0894822
(2010-09-30)
등록번호
US-8550707
(2013-10-08)
우선권정보
FR-09 56876 (2009-10-02)
발명자
/ 주소
Rivero, Christian
출원인 / 주소
STMicroelectronics (Rousset) SAS
대리인 / 주소
Wolf, Greenfield & Sacks, P.C.
인용정보
피인용 횟수 :
1인용 특허 :
3
초록▼
A device for detecting temperature variations of the substrate of an integrated circuit chip, including, in the substrate, implanted resistors connected as a Wheatstone bridge, wherein each of two first opposite resistors of the bridge is covered with an array of metal lines parallel to a first dire
A device for detecting temperature variations of the substrate of an integrated circuit chip, including, in the substrate, implanted resistors connected as a Wheatstone bridge, wherein each of two first opposite resistors of the bridge is covered with an array of metal lines parallel to a first direction, the first direction being such that a variation in the substrate stress along this direction causes a variation of the unbalance value of the bridge.
대표청구항▼
1. A device for detecting temperature variations of a substrate of an integrated circuit chip, comprising, in the substrate, implanted resistors connected as a Wheatstone bridge, wherein each of two first opposite resistors of the bridge is covered with an array of metal lines parallel to a first di
1. A device for detecting temperature variations of a substrate of an integrated circuit chip, comprising, in the substrate, implanted resistors connected as a Wheatstone bridge, wherein each of two first opposite resistors of the bridge is covered with an array of metal lines parallel to a first direction, the first direction being such that a variation in substrate stress along this direction causes a variation of an unbalance value of the bridge, wherein the implanted resistors each comprise a doped region of a first conductivity type formed in a substrate region of a second conductivity type. 2. The device of claim 1, wherein the first two opposite resistors have the shape, in top view, of parallel rectangular bars, the metal lines extending along the length of said bars. 3. The device of claim 1, wherein the metal lines are made of copper. 4. The device of claim 1, wherein the metal lines are made of aluminum. 5. The device of claim 1, wherein each of two second opposite resistors of the bridge is covered with an array of metal lines parallel to a second direction orthogonal to the first direction. 6. The device of claim 5, wherein the implanted resistors have, in top view, a square shape. 7. A device for detecting temperature variations, comprising: a substrate; anda bridge circuit formed in the substrate, the bridge circuit including a first implanted resistor coupled between a first voltage terminal and a first node, a second implanted resistor coupled between the first node and a second voltage terminal, a third implanted resistor coupled between the first voltage terminal and a second node, and a fourth implanted resistor coupled between the second node and the second voltage terminal, wherein parallel metal lines are formed on the second and third resistors and wherein a variation in voltage between the first and second nodes indicates a temperature variation of the substrate. 8. A device for detecting temperature variations as defined in claim 7, wherein the first, second, third and fourth implanted resistors each comprise a doped region of a first conductivity type formed in a substrate region of a second conductivity type. 9. A device for detecting temperature variations as defined in claim 7, wherein the parallel metal lines on the second and third implanted resistors are unconnected. 10. A device for detecting temperature variations as defined in claim 7, wherein the parallel metal lines are transverse to a long dimension of the second and third implanted resistors. 11. A device for detecting temperature variations as defined in claim 7, wherein the parallel metal lines are formed in a first metallization level of the device. 12. A device for detecting temperature variations as defined in claim 7, wherein the first, second, third and fourth implanted resistors are P-type resistors oriented along a crystal direction (110) of a silicon substrate. 13. A device for detecting temperature variations as defined in claim 7, wherein the first, second, third and fourth implanted resistors are N-type resistors forming a 45° angle with respect to a crystal direction (110) of a silicon substrate. 14. A device for detecting temperature variations as defined in claim 7, wherein the parallel metal lines are copper or aluminum. 15. A device for detecting temperature variations as defined in claim 7, wherein the parallel metal lines are separated from the second and third implanted resistors by a first nitride layer, an oxide layer and a second nitride layer. 16. A device for detecting temperature variations as defined in claim 7, wherein the parallel metal lines are parallel to a long dimension of the second and third implanted resistors. 17. A device for detecting temperature variations as defined in claim 16, further comprising parallel metal lines formed on the first and fourth implanted resistors, wherein the parallel metal lines on the first and fourth implanted resistors are transverse to a long dimension of the first and fourth implanted resistors. 18. A device for detecting temperature variations as defined in claim 17, wherein the first, second, third and fourth implanted resistors are square. 19. A method for making a device for detecting temperature variations of a substrate, comprising: forming in the substrate a bridge circuit including a first implanted resistor coupled between a first voltage terminal and a first node, a second implanted resistor coupled between the first node and a second voltage terminal, a third implanted resistor coupled between the first voltage terminal and a second node, and a fourth implanted resistor coupled between the second node and the second voltage terminal; andforming parallel metal lines on the second and third implanted resistors. 20. A method as defined in claim 19, wherein each of the first, second, third and fourth implanted resistors is formed as a doped region of a first conductivity type in a substrate region of a second conductivity type. 21. A method as defined in claim 19, wherein the parallel metal lines are formed transverse to a long dimension of the second and third implanted resistors. 22. A method as defined in claim 19, wherein the parallel metal lines are formed in a first metallization level of the device. 23. A method as defined in claim 19, wherein the first, second, third and fourth implanted resistors are P-type resistors oriented along a crystal direction (110) of a silicon substrate. 24. A method as defined in claim 19, wherein the first, second, third and fourth implanted resistors are N-type resistors forming a 45° angle with respect to a crystal direction (110) of a silicon substrate. 25. A method as defined in claim 19, further comprising forming a first nitride layer, an oxide layer and a second nitride layer between the parallel metal lines and the second and third implanted resistors. 26. A method as defined in claim 19, wherein the parallel metal lines are formed parallel to a long dimension of the second and third implanted resistors. 27. A method as defined in claim 26, further comprising forming parallel metal lines on the first and fourth implanted resistors, wherein the parallel metal lines on the first and fourth implanted resistors are transverse to a long dimension of the first and fourth implanted resistors.
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