IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0759715
(2001-01-12)
|
우선권정보 |
JP-0005336 (2000-01-14) |
발명자
/ 주소 |
- Tsugane, Hiroaki
- Sato, Hisakatsu
|
출원인 / 주소 |
|
대리인 / 주소 |
Katten Muchin Zavis Rosenman
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
27 |
초록
▼
It is an object of the present invention to provide a method for manufacturing a semiconductor device in which, when a cell capacitor of a DRAM and a capacitor element in an analog element region are mix-mounted on the same chip, the manufacturing steps can be simplified.First, the P type impurity r
It is an object of the present invention to provide a method for manufacturing a semiconductor device in which, when a cell capacitor of a DRAM and a capacitor element in an analog element region are mix-mounted on the same chip, the manufacturing steps can be simplified.First, the P type impurity region 13b and the P type well 13 are simultaneously formed. Next, the lower electrodes 55a and 55b of the capacitor elements 600a and 600b and the storage nodes 53a and 53b of the cell capacitors 700a and 700b are simultaneously formed. Next, a dielectric layer (ON layer 61) of the capacitor elements 600a and 600b and a dielectric layer (ON layer 61) of the cell capacitors 700a and 700b are simultaneously formed. Then, the upper electrodes 69a and 69b of the capacitor elements 600a and 600b and the cell plate 67 of the cell capacitors 700a and 700b are simultaneously formed.
대표청구항
▼
1. A method for manufacturing a semiconductor device, the semiconductor device having a DRAM including a cell capacitor formed in a DRAM region of a semiconductor substrate, and a capacitor element formed in an analog element region of the semiconductor substrate, the method comprising the steps of:
1. A method for manufacturing a semiconductor device, the semiconductor device having a DRAM including a cell capacitor formed in a DRAM region of a semiconductor substrate, and a capacitor element formed in an analog element region of the semiconductor substrate, the method comprising the steps of:(a) simultaneously forming a well and an impurity region that is used to electrically connect a lower electrode of the capacitor element and another semiconductor element, wherein the well is located in the semiconductor substrate in the DRAM region, and the impurity region is located in the semiconductor substrate in the analog element region; (b) simultaneously forming a storage node of the cell capacitor and the lower electrode of the capacitor element; (c) simultaneously forming a dielectric layer of the cell capacitor and a dielectric layer of the capacitor element; and (d) simultaneously forming a cell plate of the cell capacitor and an upper electrode of the capacitor element. 2. A method for manufacturing a semiconductor device according to claim 1, ether comprising the step of:(e) forming a first resistance element and a second resistance element in the analog element region, wherein the step (e) is carried out simultaneously with the step (d), and wherein a number of ion-implantations of impurity in a region where the first resistance element is to be formed is greater than a number of ion-implantation of impurity in a region where the second resistance element is to be formed so that a resistance value of the first resistance element is lower than a resistance value of the second resistance element. 3. A method for manufacturing a semiconductor device according to claim 1, further comprising the step of:(e) forming a first resistance element and a second resistance element in the analog element region, wherein the step (e) is carried out simultaneously with the step (d), and wherein an impurity is diffused in a region where the first resistance element is to be formed so that a resistance value of the first resistance element is lower than a resistance value of the second resistance element. 4. A method for manufacturing a semiconductor device according to claim 1, further comprising the step of:(e) forming a first resistance element and a second resistance element in the analog element region, wherein the step (e) is carried out simultaneously with the step (d), and wherein a silicide layer is formed in a region where the first resistance element is to be formed so that a resistance value of the first resistance element is lower than a resistance value of the second resistance element. 5. A method for manufacturing a semiconductor device, the semiconductor device having a DRAM including a cell capacitor formed in a DRAM region of a semiconductor substrate, and a capacitor element formed in an analog element region of the semiconductor substrate, the method comprising:forming a well and an impurity region that is used to electrically connect a lower electrode of the capacitor element and another semiconductor element, wherein the well is located in the semiconductor substrate in the DRAM region, and the impurity region is located in the semiconductor substrate in the analog element region; forming a second conducting layer and etching a portion of the second conducting layer to form a storage node of the cell capacitor and the lower electrode; forming a dielectric layer and etching a portion of the dielectric layer to form a dielectric layer of the cell capacitor and a dielectric layer of the capacitor element; and forming a third conducting layer and etching a portion of the third conducting layer to form a cell plate of the cell capacitor and an upper electrode of the capacitor element. 6. A method according to claim 5, further comprising forming a first resistance element and a second resistance element in the analog element from the third conducting layer, wherein a resistance value of the first resistance element is lower than that of the second resistance element.7. A method for manufacturing a semiconductor device including a semiconductor substrate having a DRAM region and an analog element region, comprising:forming an impurity region in the analog element region of the semiconductor substrate; forming an interlayer dielectric layer on the semiconductor substrate; forming an embedded connection layer contacting the semiconductor substrate and extending through the interlayer dielectric layer; forming a cell capacitor in the DRAM region and forming a capacitor element in the analog element region; wherein the interlayer dielectric layer is positioned between the semiconductor substrate and the capacitor element; wherein the embedded connection layer and the impurity region are positioned to electrically connect a lower electrode of the capacitor element to another semiconductor device element; and wherein the embedded connection layer is positioned in a connection hole formed in the interlayer dielectric layer, with one end of the embedded connection layer connected to the lower electrode of the capacitor element at a bottom surface of the lower electrode of the capacitor element, and another end of the embedded connection layer connected to the impurity region. 8. A method according to claim 7, further comprising forming an additional capacitor element and additional embedded connection layer positioned in the analog element region so that the additional embedded connection layer extends from the additional capacitor element to the impurity region, and serially connecting the capacitor element and the additional capacitor element to each other through the impurity region.9. A method according to claim 7, further comprising forming a first resistance element and a second resistance element in the analog element region, and forming an impurity concentration of the first resistance element to be higher than an impurity concentration of the second resistance element so that a resistance value of the first resistance element is lower than a resistance value of the second resistance element.10. A method according to claim 8, further comprising forming a first resistance element and a second resistance element in the analog element region, and forming an impurity concentration of the first resistance element to be higher than an impurity concentration of the second resistance element so that a resistance value of the first resistance element is lower than a resistance value of the second resistance element.11. A method according to claim 7, further comprising forming a first resistance element and a second resistance element in the analog element region, and forming the first resistance element to include a silicide layer and forming the first resistance element to have a resistance value that is lower than a resistance value of the second resistance element.12. A method according to claim 8, further comprising forming a first resistance element and a second resistance element in the analog element region, and forming the first resistance element to include a silicide layer and forming the first resistance element to have a resistance value that is lower than a resistance value of the second resistance element.13. A method according to claim 7, further comprising forming a thickness of a dielectric layer of the capacitor element to be identical with a thickness of a dielectric layer of the cell capacitor.14. A method according to claim 8, further comprising forming a thickness of a dielectric layer of the capacitor element to be identical with a thickness of a dielectric layer of the cell capacitor.15. A method according to claim 9, further comprising forming a thickness of a dielectric layer of the capacitor element to be identical with a thickness of a dielectric layer of the cell capacitor.16. A method according to claim 11, further comprising forming a thickness of a dielectric layer of the capacitor element to be identical with a thickness of a dielectric layer of the cell capacitor.17. A method according to claim 8, further comprising forming an additional cell capacitor in the DRAM region.18. A method according to claim 17, further comprising forming a well in the DRAM region simultaneously with forming the impurity region in the analog element region.19. A method according to claim 18, further comprising:simultaneously forming (i) a storage node of the cell capacitor, (ii) an additional storage node of the additional cell capacitor, (iii) the lower electrode of the capacitor element, and (iv) an additional lower electrode of the additional capacitor element; simultaneously forming (i) a dielectric layer of the cell capacitor, (ii) an additional dielectric layer of the additional cell capacitor, (iii) a dielectric layer of the capacitor element, and (iv) an additional dielectric layer of the additional capacitor element; and simultaneously forming (i) a cell plate of the cell capacitor and the additional cell capacitor, (ii) an upper electrode of the capacitor element, and (iii) an additional upper electrode of the additional capacitor element.
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