Manufacturing method of thin film transistor and liquid crystal display device
First Claim
1. A manufacturing method of a liquid crystal display device, comprising:
- forming a plurality of transistors, the formation of the plurality of transistors comprising;
forming gate electrodes and a gate wiring over a substrate by a first photolithography step;
forming a gate insulating layer over the gate electrodes;
forming a semiconductor layer over the gate insulating layer; and
forming source electrodes and drain electrodes over the semiconductor layer by a second photolithography step;
forming a first insulating layer over the source electrodes and the drain electrodes;
forming contact holes by selectively removing first parts of the first insulating layer wherein the first parts overlap with the drain electrodes, and removing a second part of the first insulating layer, a third part of the semiconductor layer, and a fourth part of the gate insulating layer wherein each of the second part, the third part, and the fourth part overlaps with neither the source electrodes nor the drain electrodes, by a third photolithography step, wherein the third photolithography step comprises a step of exposing a part of the gate wiring positioned between the plurality of transistors to divide the semiconductor layer;
forming pixel electrodes over the first insulating layer by a fourth photolithography step, wherein the fourth photolithography step is performed so that the pixel electrodes are electrically disconnected from the exposed gate wiring; and
forming, over the exposed gate wiring, a second insulating layer serving as a spacer maintaining a space that is to be filled with a liquid crystal.
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Accused Products
Abstract
Etching of a semiconductor layer including a part over a gate wiring and formation of a contact hole for connection between a pixel electrode and a drain electrode are performed by one-time photolithography step and one-time etching step; thus, the number of photolithography steps is reduced. The exposed part of the gate wiring is covered by an insulating layer, and this insulating layer also functions as a spacer for maintaining a space for a liquid crystal layer. By the reduction in the number of photolithography steps, a liquid crystal display device can be provided at lower cost and higher productivity. Using an oxide semiconductor for the semiconductor layer can realize a liquid crystal display device with low power consumption and high reliability.
115 Citations
21 Claims
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1. A manufacturing method of a liquid crystal display device, comprising:
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forming a plurality of transistors, the formation of the plurality of transistors comprising; forming gate electrodes and a gate wiring over a substrate by a first photolithography step; forming a gate insulating layer over the gate electrodes; forming a semiconductor layer over the gate insulating layer; and forming source electrodes and drain electrodes over the semiconductor layer by a second photolithography step; forming a first insulating layer over the source electrodes and the drain electrodes; forming contact holes by selectively removing first parts of the first insulating layer wherein the first parts overlap with the drain electrodes, and removing a second part of the first insulating layer, a third part of the semiconductor layer, and a fourth part of the gate insulating layer wherein each of the second part, the third part, and the fourth part overlaps with neither the source electrodes nor the drain electrodes, by a third photolithography step, wherein the third photolithography step comprises a step of exposing a part of the gate wiring positioned between the plurality of transistors to divide the semiconductor layer; forming pixel electrodes over the first insulating layer by a fourth photolithography step, wherein the fourth photolithography step is performed so that the pixel electrodes are electrically disconnected from the exposed gate wiring; and forming, over the exposed gate wiring, a second insulating layer serving as a spacer maintaining a space that is to be filled with a liquid crystal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A manufacturing method of a liquid crystal display device, comprising:
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forming a conductive layer; forming a first insulating layer over the conductive layer; forming a semiconductor layer over the first insulating layer; forming a first electrode and a second electrode over the semiconductor layer; forming a second insulating layer over the first electrode and the second electrode; removing a first part of the second insulating layer, a second part of the second insulating layer, a third part of the semiconductor layer, and a fourth part of the first insulating layer, so as to form a contact hole at the first part, and to expose a part of the conductive layer; forming a pixel electrode over the second insulating layer so as to be electrically disconnected from the exposed part of the conductive layer, and to be electrically connected to the first electrode through the contact hole; and forming a third insulating layer that overlaps with the exposed part of the conductive layer. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A manufacturing method of a liquid crystal display device, comprising:
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forming a conductive layer; forming a first insulating layer over the conductive layer; forming a semiconductor layer over the first insulating layer; forming a first electrode and a second electrode over the semiconductor layer; forming a second insulating layer over the first electrode and the second electrode; removing a first part of the second insulating layer, a second part of the second insulating layer, a third part of the semiconductor layer, and a fourth part of the first insulating layer, so as to form a contact hole at the first part, and to expose a part of the conductive layer; forming a pixel electrode over the second insulating layer so as to be electrically disconnected from the exposed part of the conductive layer, to be electrically connected to the first electrode through the contact hole, and so as not to overlap with a channel formation region of the semiconductor layer; and forming a third insulating layer that overlaps with the exposed part of the conductive layer. - View Dependent Claims (16, 17, 18, 19, 20, 21)
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Specification