Array substrate for liquid crystal display substrate having high aperture ratio and method for fabricating the same
First Claim
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1. An array substrate for a liquid crystal display device, comprising:
- a transparent substrate;
a gate line arranged along a first direction on the transparent substrate;
a gate electrode extending from the gate line by a predetermined length along a second direction perpendicular to the first direction;
a common line arranged along the first direction, the common line having a protrusion extending toward the gate line along the second direction spaced apart from the gate line by a predetermined distance;
a gate insulation layer on the transparent substrate to cover the gate line, the gate electrode, and the common line;
an active layer on the gate insulation layer and over the gate electrode;
first and second ohmic contact layers on the active layer;
a data line arranged along the second direction upon the gate insulation layer;
a source electrode extending from the data line and contacting the first ohmic contact layer;
a drain electrode spaced apart from the source electrode and contacting the second ohmic contact layer;
a first capacitor electrode formed on the gate insulation layer and connected to the drain electrode, the first capacitor electrode overlapping the common line and the protrusion of the common line;
a passivation layer formed on the gate insulation layer to cover the data line, the source and drain electrodes, and the first capacitor electrode, the passivation layer having a first contact hole exposing a portion of the first capacitor electrode; and
a pixel electrode formed on the passivation layer and contacting the first capacitor electrode through the first contact hole, wherein the pixel electrode completely overlaps the protrusion of the common line and the first capacitor electrode and partially overlaps the gate line,wherein the predetermined length of the gate electrode is greater than the predetermined distance between the protrusion and the gate line, the protrusion extends past a side of the first capacitor electrode closest to the gate line along the second direction, and the first capacitor electrode extends past the protrusion along the first direction, and wherein the gate line is exposed through a space between the adjacent pixel electrodes along the second direction.
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Abstract
An array substrate for a liquid crystal display device includes a transparent substrate, a gate line arranged along a first direction on the transparent substrate, a gate electrode extending from the gate line, a common line arranged along the first direction adjacent to the gate line and having a protrusion, a gate insulation layer on the transparent substrate to cover the gate line, the gate electrode, and the common electrode, an active layer on the gate insulation layer and over the gate electrode, first and second ohmic contact layers on the active layer, a data line arranged along a second direction perpendicular to the first upon the gate insulation layer, a source electrode extending from the data line and contacting the first ohmic contact layer, a drain electrode spaced apart from the source electrode and contacting the second ohmic contact layer, a first capacitor electrode formed on the gate insulation layer and connected to the drain electrode, the first capacitor electrode overlapping the common line and the protrusion of the common line, a passivation layer formed on the gate insulation layer to cover the data line, the source and drain electrodes, and the first capacitor electrode, the passivation layer having a first contact hole exposing a portion of the capacitor electrode, and a pixel electrode formed on the passivation layer and contacting the first capacitor electrode through the first contact hole.
21 Citations
24 Claims
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1. An array substrate for a liquid crystal display device, comprising:
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a transparent substrate; a gate line arranged along a first direction on the transparent substrate; a gate electrode extending from the gate line by a predetermined length along a second direction perpendicular to the first direction; a common line arranged along the first direction, the common line having a protrusion extending toward the gate line along the second direction spaced apart from the gate line by a predetermined distance; a gate insulation layer on the transparent substrate to cover the gate line, the gate electrode, and the common line; an active layer on the gate insulation layer and over the gate electrode; first and second ohmic contact layers on the active layer; a data line arranged along the second direction upon the gate insulation layer; a source electrode extending from the data line and contacting the first ohmic contact layer; a drain electrode spaced apart from the source electrode and contacting the second ohmic contact layer; a first capacitor electrode formed on the gate insulation layer and connected to the drain electrode, the first capacitor electrode overlapping the common line and the protrusion of the common line; a passivation layer formed on the gate insulation layer to cover the data line, the source and drain electrodes, and the first capacitor electrode, the passivation layer having a first contact hole exposing a portion of the first capacitor electrode; and a pixel electrode formed on the passivation layer and contacting the first capacitor electrode through the first contact hole, wherein the pixel electrode completely overlaps the protrusion of the common line and the first capacitor electrode and partially overlaps the gate line, wherein the predetermined length of the gate electrode is greater than the predetermined distance between the protrusion and the gate line, the protrusion extends past a side of the first capacitor electrode closest to the gate line along the second direction, and the first capacitor electrode extends past the protrusion along the first direction, and wherein the gate line is exposed through a space between the adjacent pixel electrodes along the second direction. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for fabricating an array substrate for a liquid crystal display device, comprising the steps of:
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forming a gate line arranged along a first direction on a transparent substrate; forming a gate electrode extending from the gate line by a predetermined length along a second direction perpendicular to the first direction; forming a common line arranged along the first direction, the common line having a protrusion extending toward the gate line along the second direction spaced apart from the gate line by a predetermined distance; forming a gate insulation layer on the transparent substrate to cover the gate line, the gate electrode, and the common line; forming an active layer on the gate insulation layer and over the gate electrode; forming first and second ohmic contact layers on the active layer; forming a data line arranged along the second direction upon the gate insulation layer; forming a source electrode extending from the data line and contacting the first ohmic contact layer; forming a drain electrode spaced apart from the source electrode and contacting the second ohmic contact layer; forming a first capacitor electrode on the gate insulation layer to connect to the drain electrode, the first capacitor electrode overlapping the common line and the protrusion of the common line; forming a passivation layer on the gate insulation layer to cover the data line, the source and drain electrodes, and the first capacitor electrode, the passivation layer having a first contact hole exposing a portion of the first capacitor electrode; and forming a pixel electrode on the passivation layer to contact the first capacitor electrode through the first contact hole, wherein the pixel electrode completely overlaps the protrusion of the common line and the first capacitor electrode and partially overlaps the gate line, wherein the predetermined length of the gate electrode is greater than the predetermined distance between the protrusion and the gate line, the protrusion extends past a side of the first capacitor electrode closest to the gate line along the second direction, and the first capacitor electrode extends past the protrusion along the first direction, and wherein the gate line is exposed through a space between the adjacent pixel electrodes along the second direction. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
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Specification
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Current AssigneeLG Display Co., Ltd.
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Original AssigneeLG Display Co., Ltd.
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InventorsKim, Ik Soo, Chae, Gee Sung, Lee, Jae Kyun
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Primary Examiner(s)Nguyen; Dung T.
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Application NumberUS10/133,320Publication NumberTime in Patent Office2,458 DaysField of Search349 38- 43, 349/139US Class Current349/39CPC Class CodesG02F 1/133512 Light shielding layers, e.g...G02F 1/136213 Storage capacitors associat...
