[미국특허]
DRIVING BACKPLANE, METHOD FOR PRODUCING THE SAME, AND DISPLAY DEVICE
원문보기
IPC분류정보
국가/구분
United States(US) Patent
공개
국제특허분류(IPC7판)
H01L-033/38
H01L-033/62
H01L-025/075
H01L-033/40
H01L-033/00
출원번호
16868491
(2020-05-06)
공개번호
20200266319
(2020-08-20)
우선권정보
CN-201811133675.8 (2018-09-27)
발명자
/ 주소
WEI, Dong
YANG, Xiaolong
XING, Rubo
WANG, Jiantai
LI, Xuna
CHEN, Huashan
출원인 / 주소
WEI, Dong
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
The present application discloses a driving backplane, a method for producing the same and a display device. The driving backplane includes: a substrate; a first insulating film layer disposed on the substrate and including a first region and a second region; an extended anode disposed on a side of
The present application discloses a driving backplane, a method for producing the same and a display device. The driving backplane includes: a substrate; a first insulating film layer disposed on the substrate and including a first region and a second region; an extended anode disposed on a side of the first region of the first insulating film layer, a height of the extended anode matching a height of a cathode of a light-emitting chip; and an extended cathode disposed on a side of the second region of the first insulating film layer, a height of the extended cathode matching a height of an anode of the light-emitting chip.
대표청구항▼
1. A driving backplane, comprising: a substrate;a first insulating film layer disposed on the substrate, the first insulating film layer comprising a first region and a second region;an extended anode disposed on a side of the first region of the first insulating film layer, the side of the first re
1. A driving backplane, comprising: a substrate;a first insulating film layer disposed on the substrate, the first insulating film layer comprising a first region and a second region;an extended anode disposed on a side of the first region of the first insulating film layer, the side of the first region being away from the substrate, a height of the extended anode matching a height of a cathode of a light-emitting chip; andan extended cathode disposed on a side of the second region of the first insulating film layer, the side of the second region being away from the substrate, a height of the extended cathode matching a height of an anode of the light-emitting chip. 2. The driving backplane of claim 1, wherein a first preset height of the first region of the first insulating film layer matches the height of the cathode of the light-emitting chip, so that the height of the extended anode matches the height of the cathode of the light-emitting chip. 3. The driving backplane of claim 1, wherein a second preset height of the second region of the first insulating film layer matches the height of the anode of the light-emitting chip, and the height of the extended cathode matches the height of the anode of the light-emitting chip. 4. The driving backplane of claim 1, further comprising: at least a second insulating film layer disposed on the side of the first region of the first insulating film layer, wherein the side of the first region is away from the substrate. 5. The driving backplane of claim 4, wherein: the extended anode is disposed on a side of the second insulating film layer, and the side of the second insulating film layer is away from the first insulating film layer. 6. The driving backplane of claim 5, wherein: a sum of a first preset height of the first region of the first insulating film layer and a third preset height of the second insulating film layer matches the height of the cathode of the light-emitting chip. 7. The driving backplane of claim 1, further comprising: at least one second insulating film layer disposed on the side of the second region of the first insulating film layer, wherein the side of the second region is away from the substrate. 8. The driving backplane of claim 7, wherein: the extended cathode is disposed on a side of the second insulating film layer, and the side of the second insulating film layer is away from the first insulating film layer. 9. The driving backplane of claim 8, wherein: a sum of a second preset height of the second region of the first insulating film layer and a fourth preset height of the second insulating film layer matches the height of the anode of the light-emitting chip. 10. The driving backplane of claim 4, wherein a material of the first insulating film layer and the second insulating film layer comprises at least one of materials of silicon dioxide, silicon nitride, and polyimide. 11. The driving backplane of claim 4, wherein adjacent insulating film layers are made of different materials, and the insulating film layer is the first insulating film layer and/or the second insulating film layer. 12. The driving backplane of claim 1, wherein a material of the extended anode and a material of the extended cathode comprises at least one of materials of gold, aluminum, and copper. 13. A method for producing a driving backplane, comprising: providing a substrate;producing a first insulating film layer on the substrate, the first insulating film layer comprising a first region and a second region;producing an extended anode on a side of the first region of the first insulating film layer, wherein the side of the first region is away from the substrate, and a height of the extended anode matches a height of a cathode of a light-emitting chip; andproducing an extended cathode on a side of the second region of the first insulating film layer, wherein the side of the second region is away from the substrate, and a height of the extended cathode matches a height of an anode of the light-emitting chip. 14. The method for producing the driving backplane of claim 13, wherein the producing the extended anode on the side of the first region of the first insulating film layer comprises: coating a photoresist layer on a side of the first insulating film layer, wherein the side of the first insulating film layer is away from the substrate;exposing the photoresist layer coated on the first region of the first insulating film layer by a first preset mask; anddeveloping the exposed photoresist layer to obtain the extended anode. 15. The method for producing a driving backplane of claim 13, wherein the producing the extended cathode on the side of the second region of the first insulating film layer comprises: coating a photoresist layer on a side of the first insulating film layer, wherein the side of the first insulating film layer is away from the substrate;exposing the photoresist layer coated on the second region of the first insulating film layer by a second preset mask; anddeveloping the exposed photoresist layer to obtain the extended cathode. 16. The method for producing a driving backplane of claim 13, wherein the producing the extended anode on the side of the first region of the first insulating film layer comprises: producing at least one second insulating film layer on the side of the first region of the first insulating film layer, wherein the side of the first region is away from the substrate; and producing the extended anode on a side of the second insulating film layer, wherein the side of the second insulating film layer is away from the first insulating film layer. 17. The method for producing a driving backplane of claim 13, wherein the producing the extended cathode on the side of the second region of the first insulating film layer comprises: producing at least one second insulating film layer on a side of the second region of the first insulating film layer, wherein the side of the second region is away from the substrate; and producing the extended cathode on a side of the second insulating film layer, wherein the side of the second insulating film layer is away from the first insulating film layer. 18. The method for producing a driving backplane of claim 13, wherein: the extended anode is produced on the first region of the first insulating film layer, and the extended cathode is produced on the second region of the first insulating film layer by an electrode patterning technology. 19. The method for producing a driving backplane of claim 18, wherein the electrode patterning technology comprises at least one of technologies of lithography technology, printing technology, and nanoimprint lithograhpy. 20. A display device, comprising a driving backplane, wherein the driving backplane comprises: a substrate;a first insulating film layer disposed on the substrate, the first insulating film layer comprising a first region and a second region;an extended anode disposed on a side of the first region of the first insulating film layer, the side of the first region being away from the substrate, a height of the extended anode matching a height of a cathode of a light-emitting chip; andan extended cathode disposed on a side of the second region of the first insulating film layer, the side of the second region being away from the substrate, a height of the extended cathode matching a height of an anode of the light-emitting chip.
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