Failure light emission of an EL element due to failure film formation of an organic EL material in an electrode hole 46 is improved. By forming the organic EL material after embedding an insulator in an electrode hole 46 on a pixel electrode and forming a protective portion 41b, failure film formati
Failure light emission of an EL element due to failure film formation of an organic EL material in an electrode hole 46 is improved. By forming the organic EL material after embedding an insulator in an electrode hole 46 on a pixel electrode and forming a protective portion 41b, failure film formation in the electrode hole 46 can be prevented. This can prevent concentration of electric current due to a short circuit between a cathode and an anode of the EL element, and can prevent failure light emission of an EL layer.
대표청구항▼
1. A self-light-emitting device comprising: a semiconductor film;a first insulating film over the semiconductor film;a first conductive film over the first insulating film;a second insulating film over the first conductive film;a second conductive film over the second insulating film;a third insulat
1. A self-light-emitting device comprising: a semiconductor film;a first insulating film over the semiconductor film;a first conductive film over the first insulating film;a second insulating film over the first conductive film;a second conductive film over the second insulating film;a third insulating film over the second conductive film;a third conductive film over the third insulating film;a fourth insulating film over the third insulating film;an EL layer over the third conductive film and the fourth insulating film;a fourth conductive film over the EL layer; anda fifth insulating film over the fourth conductive film;wherein the semiconductor film comprises a channel region,wherein the second conductive film is electrically connected to the semiconductor film;wherein the third insulating film has a contact hole,wherein the third conductive film is electrically connected to the second conductive film via the contact hole,wherein the third conductive film comprises a first portion not overlapping the contact hole,wherein the third conductive film comprises a second portion overlapping the contact hole,wherein the contact hole is filled up with the second portion and the fourth insulating film,wherein a surface of the fourth insulating film in the contact hole comprises a rising portion higher than a surface of the first portion,wherein the third insulating film comprises a first organic resin, andwherein the fourth insulating film comprises a second organic resin. 2. A self-light-emitting device comprising: a semiconductor film;a first insulating film over the semiconductor film;a first conductive film over the first insulating film;a second insulating film over the first conductive film;a second conductive film over the second insulating film;a third insulating film over the second conductive film;a third conductive film over the third insulating film;a fourth insulating film over the third insulating film;an EL layer over the third conductive film and the fourth insulating film; anda fourth conductive film over the EL layer;wherein the semiconductor film comprises a channel region,wherein the second conductive film is electrically connected to the semiconductor film;wherein the third insulating film has a contact hole,wherein the third conductive film is electrically connected to the second conductive film via the contact hole,wherein the third conductive film comprises a first portion not overlapping the contact hole,wherein the third conductive film comprises a second portion overlapping the contact hole,wherein the contact hole is filled up with the second portion and the fourth insulating film,wherein a surface of the fourth insulating film in the contact hole comprises a rising portion higher than a surface of the first portion,wherein the third insulating film comprises a first organic resin,wherein the fourth insulating film comprises a second organic resin, andwherein the third conductive film overlaps the channel region. 3. A self-light-emitting device comprising: a semiconductor film;a first insulating film over the semiconductor film;a first conductive film over the first insulating film;a second insulating film over the first conductive film;a second conductive film over the second insulating film;a third insulating film over the second conductive film;a third conductive film over the third insulating film;a fourth insulating film over the third insulating film;an EL layer over the third conductive film and the fourth insulating film;a fourth conductive film over the EL layer; anda fifth insulating film over the fourth conductive film;wherein the semiconductor film comprises a channel region,wherein the second conductive film is electrically connected to the semiconductor film;wherein the third insulating film has a contact hole,wherein the third conductive film is electrically connected to the second conductive film via the contact hole,wherein the third conductive film comprises a first portion not overlapping the contact hole,wherein the third conductive film comprises a second portion overlapping the contact hole,wherein the contact hole is filled up with the second portion and the fourth insulating film,wherein a surface of the fourth insulating film in the contact hole comprises a rising portion higher than a surface of the first portion,wherein the third insulating film comprises a first organic resin,wherein the fourth insulating film comprises a second organic resin, andwherein the third conductive film overlaps the channel region. 4. The self-light-emitting device according to claim 1, the third insulating film comprising a material selected from acrylic resin, polyimide and polyamide. 5. The self-light-emitting device according to claim 1, the fourth insulating film comprising a material selected from acrylic resin, polyimide and polyamide. 6. The self-light-emitting device according to claim 1, the fifth insulating film comprising silicon nitride. 7. The self-light-emitting device according to claim 2, the third insulating film comprising a material selected from acrylic resin, polyimide and polyamide. 8. The self-light-emitting device according to claim 2, the fourth insulating film comprising a material selected from acrylic resin, polyimide and polyamide. 9. The self-light-emitting device according to claim 3, the third insulating film comprising a material selected from acrylic resin, polyimide and polyamide. 10. The self-light-emitting device according to claim 3, the fourth insulating film comprising a material selected from acrylic resin, polyimide and polyamide. 11. The self-light-emitting device according to claim 3, the fifth insulating film comprising silicon nitride. 12. The self-light-emitting device according to claim 1, further comprising: a substrate on which the semiconductor film is formed;a pixel portion in which the EL layer is formed;a gate side driver circuit adjacent to the pixel portion; anda flexible print circuit (FPC) attached to the substrate. 13. The self-light-emitting device according to claim 2, further comprising: a substrate on which the semiconductor film is formed;a pixel portion in which the EL layer is formed;a gate side driver circuit adjacent to the pixel portion; anda flexible print circuit (FPC) attached to the substrate. 14. The self-light-emitting device according to claim 3, further comprising: a substrate on which the semiconductor film is formed;a pixel portion in which the EL layer is formed;a gate side driver circuit adjacent to the pixel portion; anda flexible print circuit (FPC) attached to the substrate.
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