IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0511440
(2006-08-29)
|
등록번호 |
US-7656491
(2010-03-31)
|
우선권정보 |
JP-2000-073577(2000-03-16) |
발명자
/ 주소 |
- Yamazaki, Shunpei
- Hirakata, Yoshiharu
|
출원인 / 주소 |
- Semiconductor Energy Laboratory Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
42 인용 특허 :
227 |
초록
▼
In a liquid crystal display device of an IPS system, to realize reduction of manufacturing cost and improvement of yield by decreasing the number of steps for manufacturing a TFT. A channel etch type bottom gate TFT structure, where patterning of a source region and a drain region and patterning of
In a liquid crystal display device of an IPS system, to realize reduction of manufacturing cost and improvement of yield by decreasing the number of steps for manufacturing a TFT. A channel etch type bottom gate TFT structure, where patterning of a source region and a drain region and patterning of a source wiring and a pixel electrode are carried out by the same photomask.
대표청구항
▼
The invention claimed is: 1. A method of manufacturing a liquid crystal display device comprising: forming a gate wiring and a common electrode over an insulating surface by using a first mask; forming an insulating film over the gate wiring and the common electrode; forming a first amorphous semic
The invention claimed is: 1. A method of manufacturing a liquid crystal display device comprising: forming a gate wiring and a common electrode over an insulating surface by using a first mask; forming an insulating film over the gate wiring and the common electrode; forming a first amorphous semiconductor film over the insulating film; forming a second amorphous semiconductor film containing an impurity element which imparts n-type conductivity, over the first amorphous semiconductor film; forming a conductive film over the second amorphous semiconductor film; patterning the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film together so that outside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film are substantially coincided by using a second mask; removing a portion of the first amorphous semiconductor film, a portion of the second amorphous semiconductor film and a portion of the conductive film to form a source region and a drain region after patterning the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film; and forming a pixel electrode electrically connected to the conductive film, wherein the portion of the second amorphous semiconductor film is between the source region and the drain region, and wherein the pixel electrode and the common electrode are disposed so that liquid crystal molecules are controlled by an electric field produced between the pixel electrode and the common electrode. 2. The method of manufacturing the liquid crystal display device according to claim 1, wherein the insulating film, the first amorphous semiconductor film, and the second amorphous semiconductor film are formed in succession without exposure to an atmosphere. 3. The method of manufacturing the liquid crystal display device according to claim 1, wherein the insulating film, the first amorphous semiconductor film, or the second amorphous semiconductor film is formed by sputtering. 4. The method of manufacturing the liquid crystal display device according to claim 1, wherein the insulating film, the first amorphous semiconductor film, or the second amorphous semiconductor film is formed by plasma CVD. 5. The method of manufacturing the liquid crystal display device according to claim 1, wherein the gate wiring is formed from an element selected from the group consisting of Al, Cu, Ti, Mo, W, Ta, Nd, and Cr, and an alloy of the elements. 6. The method of manufacturing the liquid crystal display device according to claim 1, wherein inside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film are substantially coincided by removing the portion of the first amorphous semiconductor film, the portion of the second amorphous semiconductor film and the portion of the conductive film. 7. The method of manufacturing the liquid crystal display device according to claim 1, further comprising forming a transparent conductive film to cover the outside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film. 8. A method of manufacturing a liquid crystal display device comprising: forming a gate wiring and a common electrode over an insulating surface by using a first mask; forming an insulating film over the gate wiring and the common electrode; forming a first amorphous semiconductor film over the insulating film; forming a second amorphous semiconductor film containing an impurity element which imparts n-type conductivity, over the first amorphous semiconductor film; forming a conductive film over the second amorphous semiconductor film; patterning the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film together so that outside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film are substantially coincided by using a second mask; and removing a portion of the first amorphous semiconductor film, a portion of the second amorphous semiconductor film and a portion of the conductive film to form a source region, a drain region, a source wiring and a pixel electrode after patterning the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film, wherein the portion of the second amorphous semiconductor film is between the source region and the drain region, wherein the portion of the conductive film is between the source wiring and the pixel electrode, and wherein the pixel electrode and the common electrode are disposed so that liquid crystal molecules are controlled by an electric field produced between the pixel electrode and the common electrode. 9. The method of manufacturing the liquid crystal display device according to claim 8, wherein the insulating film, the first amorphous semiconductor film, and the second amorphous semiconductor film are formed in succession without exposure to an atmosphere. 10. The method of manufacturing the liquid crystal display device according to claim 8, wherein the insulating film, the first amorphous semiconductor film, or the second amorphous semiconductor film is formed by sputtering. 11. The method of manufacturing the liquid crystal display device according to claim 8, wherein the insulating film, the first amorphous semiconductor film, or the second amorphous semiconductor film is formed by plasma CVD. 12. The method of manufacturing the liquid crystal display device according to claim 8, wherein the gate wiring is formed from an element selected from the group consisting of Al, Cu, Ti, Mo, W, Ta, Nd, and Cr, and an alloy of the elements. 13. The method of manufacturing the liquid crystal display device according to claim 8, wherein inside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film are substantially coincided by removing the portion of the first amorphous semiconductor film, the portion of the second amorphous semiconductor film and the portion of the conductive film. 14. The method of manufacturing the liquid crystal display device according to claim 8, further comprising forming a transparent conductive film to cover the outside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film. 15. A method of manufacturing a liquid crystal display device comprising: forming a gate wiring and a common electrode over an insulating surface by using a first mask; forming an insulating film over the gate wiring and the common electrode; forming a first amorphous semiconductor film over the insulating film; forming a second amorphous semiconductor film containing an impurity element which imparts n-type conductivity, over the first amorphous semiconductor film; forming a conductive film over the second amorphous semiconductor film; patterning the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film together so that outside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film are substantially coincided by using a second mask; removing a portion of the first amorphous semiconductor film, a portion of the second amorphous semiconductor film and a portion of the conductive film to form a source region and a drain region by using a third mask after patterning the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film; and forming a pixel electrode electrically connected to the conductive film, wherein the portion of the second amorphous semiconductor film is between the source region and the drain region, and wherein the pixel electrode and the common electrode are disposed so that liquid crystal molecules are controlled by an electric field produced between the pixel electrode and the common electrode. 16. The method of manufacturing the liquid crystal display device according to claim 15, wherein the insulating film, the first amorphous semiconductor film, and the second amorphous semiconductor film are formed in succession without exposure to an atmosphere. 17. The method of manufacturing the liquid crystal display device according to claim 15, wherein the insulating film, the first amorphous semiconductor film, or the second amorphous semiconductor film is formed by sputtering. 18. The method of manufacturing the liquid crystal display device according to claim 15, wherein the insulating film, the first amorphous semiconductor film, or the second amorphous semiconductor film is formed by plasma CVD. 19. The method of manufacturing the liquid crystal display device according to claim 15, wherein the gate wiring is formed from an element selected from the group consisting of Al, Cu, Ti, Mo, W, Ta, Nd, and Cr, and an alloy of the elements. 20. The method of manufacturing the liquid crystal display device according to claim 15, wherein inside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film are substantially coincided by removing the portion of the first amorphous semiconductor film, the portion of the second amorphous semiconductor film and the portion of the conductive film. 21. The method of manufacturing the liquid crystal display device according to claim 15, further comprising forming a transparent conductive film to cover the outside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film. 22. A method of manufacturing a liquid crystal display device comprising: forming a gate wiring and a common electrode over an insulating surface by using a first mask; forming an insulating film over the gate wiring and the common electrode; forming a first amorphous semiconductor film over the insulating film; forming a second amorphous semiconductor film containing an impurity element which imparts n-type conductivity, over the first amorphous semiconductor film; forming a conductive film over the second amorphous semiconductor film; patterning the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film together so that outside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film are substantially coincided by using a second mask; and removing a portion of the first amorphous semiconductor film, a portion of the second amorphous semiconductor film and a portion of the conductive film to form a source region, a drain region, a source wiring and a pixel electrode by using a third mask after patterning the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film, wherein the portion of the second amorphous semiconductor film is between the source region and the drain region, wherein the portion of the conductive film is between the source wiring and the pixel electrode, and wherein the pixel electrode and the common electrode are disposed so that liquid crystal molecules are controlled by an electric field produced between the pixel electrode and the common electrode. 23. The method of manufacturing the liquid crystal display device according to claim 22, wherein the insulating film, the first amorphous semiconductor film, and the second amorphous semiconductor film are formed in succession without exposure to an atmosphere. 24. The method of manufacturing the liquid crystal display device according to claim 22, wherein the insulating film, the first amorphous semiconductor film, or the second amorphous semiconductor film is formed by sputtering. 25. The method of manufacturing the liquid crystal display device according to claim 22, wherein the insulating film, the first amorphous semiconductor film, or the second amorphous semiconductor film is formed by plasma CVD. 26. The method of manufacturing the liquid crystal display device according to claim 22, wherein the gate wiring is formed from an element selected from the group consisting of Al, Cu, Ti, Mo, W, Ta, Nd, and Cr, and an alloy of the elements. 27. The method of manufacturing the liquid crystal display device according to claim 22, wherein inside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film are substantially coincided by removing the portion of the first amorphous semiconductor film, the portion of the second amorphous semiconductor film and the portion of the conductive film. 28. The method of manufacturing the liquid crystal display device according to claim 22, further comprising forming a transparent conductive film to cover the outside end faces of the first amorphous semiconductor film, the second amorphous semiconductor film and the conductive film.
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