Semiconductor device and method for manufacturing the same
First Claim
1. A semiconductor device comprising:
- a pixel portion formed over a substrate, the pixel portion including a first transistor; and
a driver circuit portion formed over the substrate, the driver circuit portion including a second transistor,wherein the first transistor includes;
a first gate electrode layer over the substrate;
a gate insulating layer over the first gate electrode layer;
a first oxide semiconductor layer over the gate insulating layer;
a first oxide insulating layer over the first gate electrode layer and the first oxide semiconductor layer, and in contact with a part of the first oxide semiconductor layer;
a first source electrode layer and a first drain electrode layer over the first oxide insulating layer and the first oxide semiconductor layer; and
a pixel electrode layer over the first oxide insulating layer,wherein the second transistor includes;
a second gate electrode layer over the substrate;
the gate insulating layer over the second gate electrode layer;
a second oxide semiconductor layer over the gate insulating layer;
a second source electrode layer and a second drain electrode layer over the second oxide semiconductor layer; and
a second oxide insulating layer over the second oxide semiconductor layer, the second source electrode layer, and the second drain electrode layer, the second oxide insulating layer being in contact with the oxide semiconductor layer,wherein each of the first gate electrode layer, the gate insulating layer, the first oxide semiconductor layer, the first source electrode layer, the first drain electrode layer, the first oxide insulating layer, and the pixel electrode layer has light-transmitting properties,wherein a material of the second source electrode layer and the second drain electrode layer is different from a material of the first source electrode layer and the first drain electrode layer, andwherein the material of the second source electrode layer and the second drain electrode layer is a conductive material having lower resistance than the material of the first source electrode layer and the first drain electrode layer.
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Accused Products
Abstract
An object is to increase an aperture ratio of a semiconductor device. The semiconductor device includes a driver circuit portion and a display portion (also referred to as a pixel portion) over one substrate. The driver circuit portion includes a channel-etched thin film transistor for a driver circuit, in which a source electrode and a drain electrode are formed using metal and a channel layer is formed of an oxide semiconductor, and a driver circuit wiring formed using metal. The display portion includes a channel protection thin film transistor for a pixel, in which a source electrode layer and a drain electrode layer are formed using an oxide conductor and a semiconductor layer is formed of an oxide semiconductor, and a display portion wiring formed using an oxide conductor.
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Citations
44 Claims
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1. A semiconductor device comprising:
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a pixel portion formed over a substrate, the pixel portion including a first transistor; and a driver circuit portion formed over the substrate, the driver circuit portion including a second transistor, wherein the first transistor includes; a first gate electrode layer over the substrate; a gate insulating layer over the first gate electrode layer; a first oxide semiconductor layer over the gate insulating layer; a first oxide insulating layer over the first gate electrode layer and the first oxide semiconductor layer, and in contact with a part of the first oxide semiconductor layer; a first source electrode layer and a first drain electrode layer over the first oxide insulating layer and the first oxide semiconductor layer; and a pixel electrode layer over the first oxide insulating layer, wherein the second transistor includes; a second gate electrode layer over the substrate; the gate insulating layer over the second gate electrode layer; a second oxide semiconductor layer over the gate insulating layer; a second source electrode layer and a second drain electrode layer over the second oxide semiconductor layer; and a second oxide insulating layer over the second oxide semiconductor layer, the second source electrode layer, and the second drain electrode layer, the second oxide insulating layer being in contact with the oxide semiconductor layer, wherein each of the first gate electrode layer, the gate insulating layer, the first oxide semiconductor layer, the first source electrode layer, the first drain electrode layer, the first oxide insulating layer, and the pixel electrode layer has light-transmitting properties, wherein a material of the second source electrode layer and the second drain electrode layer is different from a material of the first source electrode layer and the first drain electrode layer, and wherein the material of the second source electrode layer and the second drain electrode layer is a conductive material having lower resistance than the material of the first source electrode layer and the first drain electrode layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A semiconductor device comprising:
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a pixel portion formed over a substrate, the pixel portion including a first transistor; and a driver circuit portion formed over the substrate, the driver circuit portion including a second transistor, wherein the first transistor includes; a first gate electrode layer over the substrate; a gate insulating layer over the first gate electrode layer; a first oxide semiconductor layer over the gate insulating layer; a first oxide insulating layer over the first gate electrode layer and the first oxide semiconductor layer, and in contact with a part of the first oxide semiconductor layer; a first source electrode layer and a first drain electrode layer over the first oxide insulating layer and the first oxide semiconductor layer; and a pixel electrode layer over the first oxide insulating layer, wherein the second transistor includes; a second gate electrode layer over the substrate; the gate insulating layer over the second gate electrode layer; a second oxide semiconductor layer over the gate insulating layer; a second source electrode layer and a second drain electrode layer over the second oxide semiconductor layer; and a second oxide insulating layer over the second oxide semiconductor layer, the second source electrode layer, and the second drain electrode layer, the second oxide insulating layer being in contact with the oxide semiconductor layer, wherein each of the first gate electrode layer, the gate insulating layer, the first oxide semiconductor layer, the first source electrode layer, the first drain electrode layer, the first oxide insulating layer, and the pixel electrode layer has light-transmitting properties, wherein a material of the second source electrode layer and the second drain electrode layer is different from a material of the first source electrode layer and the first drain electrode layer, wherein the material of the second source electrode layer and the second drain electrode layer is a conductive material having lower resistance than the material of the first source electrode layer and the first drain electrode layer, and wherein the second gate electrode layer comprises a first metal wiring layer. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. A method for manufacturing a semiconductor device, comprising the steps of:
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forming a first gate electrode layer and a second gate electrode layer in a pixel portion and a driver circuit portion, respectively, which are located over a substrate, forming a gate insulating layer over the first gate electrode layer and the second gate electrode layer; forming a first oxide semiconductor layer to overlap with the first gate electrode layer, and a second oxide semiconductor layer to overlap with the second gate electrode layer over the gate insulating layer; performing dehydration or dehydrogenation on the first oxide semiconductor layer and the second oxide semiconductor layer by heating in a gas selected from the group consisting of a nitrogen gas and a inert gas; cooling the first oxide semiconductor layer and the second oxide semiconductor layer with the first oxide semiconductor and the second oxide semiconductor layer not exposed to the air; forming a second source electrode layer and a second drain electrode layer over the second oxide semiconductor layer; forming a second oxide insulating layer to be in contact with a part of the second oxide semiconductor layer, and a first oxide insulating layer in a region where the first oxide semiconductor layer overlaps with the first gate electrode layer; forming a first source electrode layer and a first drain electrode layer over the first oxide semiconductor layer and the first oxide insulating layer; and forming a protection insulating layer over the first oxide insulating layer, the first source electrode layer, the first drain electrode layer, and the second oxide insulating layer; forming a pixel electrode layer to be electrically connected to the first drain electrode layer or the first source electrode layer, wherein each of the first gate electrode layer, the gate insulating layer, the first oxide semiconductor layer, the first source electrode layer, the first drain electrode layer, the first oxide insulating layer, and the pixel electrode layer has light-transmitting properties, wherein a material of the second source electrode layer and the second drain electrode layer is different from a material of the first source electrode layer and the first drain electrode layer, and wherein the material of the second source electrode layer and the second drain electrode layer is a conductive material having lower resistance than the material of the first source electrode layer and the first drain electrode layer. - View Dependent Claims (24, 25, 26, 27, 28, 29, 30, 31, 32)
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33. A method for manufacturing a semiconductor device, comprising the steps of:
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forming a first gate electrode layer and a second gate electrode layer in a pixel portion and a driver circuit portion, respectively, which are located over a substrate, forming a gate insulating layer over the first gate electrode layer and the second gate electrode layer; forming a first oxide semiconductor layer to overlap with the first gate electrode layer, and a second oxide semiconductor layer to overlap with the second gate electrode layer over the gate insulating layer; performing dehydration or dehydrogenation on the first oxide semiconductor layer and the second oxide semiconductor layer by heating in a gas selected from the group consisting of a nitrogen gas and a inert gas; cooling the first oxide semiconductor layer and the second oxide semiconductor layer with the first oxide semiconductor and the second oxide semiconductor layer not exposed to the air; forming a second source electrode layer and a second drain electrode layer over the second oxide semiconductor layer; forming a second oxide insulating layer to be in contact with a part of the second oxide semiconductor layer, and a first oxide insulating layer in a region where the first oxide semiconductor layer overlaps with the first gate electrode layer; forming a first source electrode layer and a first drain electrode layer over the first oxide semiconductor layer and the first oxide insulating layer; and forming a protection insulating layer over the first oxide insulating layer, the first source electrode layer, the first drain electrode layer, and the second oxide insulating layer; forming a pixel electrode layer to be electrically connected to the first drain electrode layer or the first source electrode layer, wherein each of the first gate electrode layer, the gate insulating layer, the first oxide semiconductor layer, the first source electrode layer, the first drain electrode layer, the first oxide insulating layer, and the pixel electrode layer has light-transmitting properties, wherein a material of the second source electrode layer and the second drain electrode layer is different from a material of the first source electrode layer and the first drain electrode layer, wherein the material of the second source electrode layer and the second drain electrode layer is a conductive material having lower resistance than the material of the first source electrode layer and the first drain electrode layer, and wherein the second gate electrode layer comprises a first metal wiring layer. - View Dependent Claims (34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44)
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Specification