Transflective liquid crystal display device and fabricating method thereof
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Accused Products
Abstract
A fabricating method of an array substrate for a transflective liquid crystal display device includes: sequentially depositing a first metal layer and an impurity-doped amorphous silicon layer on a substrate and etching the first metal layer and the impurity-doped amorphous silicon layer through a first mask process to form source and drain electrodes, a data line and an ohmic contact layer. An amorphous silicon layer, a first insulating layer and a second metal layer are sequentially deposited on the source and drain electrodes, the data line and the ohmic contact layer and etching the amorphous silicon layer, the first insulating layer and the second metal layer through a second mask process to form a gate electrode, a gate line and an active layer, the gate line defining a pixel region with the data line. A second insulating layer is formed on the gate electrode and the gate line. A reflective plate is formed on the second insulating layer at the pixel region through a third mask process, the reflective plate having a transmissive hole. A third insulating layer is deposited on the reflective plate and etching the third insulating layer through a fourth mask process to form a drain contact hole exposing the drain electrode and a transmissive groove corresponding to the transmissive hole. A pixel electrode is formed on the third insulating layer through a fifth mask process, the pixel electrode being connected to the drain electrode through the drain contact hole.
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Citations
30 Claims
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1-4. -4. (canceled)
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5. A fabricating method of an array substrate for a transflective liquid crystal display device, comprising:
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sequentially depositing a first metal layer and an impurity-doped amorphous silicon layer on a substrate;
etching the first metal layer and the impurity-doped amorphous silicon layer through a first mask process to form source and drain electrodes, a data line and an ohmic contact layer;
sequentially depositing an amorphous silicon layer, a first insulating layer and a second metal layer on the source and drain electrodes, the data line and the ohmic contact layer;
etching the amorphous silicon layer, the first insulating layer and the second metal layer through a second mask process to form a gate electrode, a gate line and an active layer, the gate line defining a pixel region with the data line;
forming a second insulating layer on the gate electrode and the gate line;
forming a reflective plate on the second insulating layer at the pixel region through a third mask process, the reflective plate having a transmissive hole;
depositing a third insulating layer on the reflective plate;
etching the third insulating layer through a fourth mask process to form a drain contact hole exposing the drain electrode and a transmissive groove corresponding to the transmissive hole; and
forming a pixel electrode on the third insulating layer through a fifth mask process, the pixel electrode being connected to the drain electrode through the drain contact hole. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13)
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14-19. -19. (canceled)
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20. A fabricating method of an array substrate for a transflective liquid crystal display device, comprising:
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sequentially depositing a first metal layer and an impurity-doped amorphous silicon layer on a substrate;
etching the first metal layer and the impurity-doped amorphous silicon layer through a first mask process to form source and drain electrodes, a data line and an ohmic contact layer;
sequentially depositing an amorphous silicon layer, a first insulating layer and a second metal layer on the source and drain electrodes, the data line and the ohmic contact layer;
etching the amorphous silicon layer, the first insulating layer and the second metal layer through a second mask process to form a gate electrode, a gate line, an active layer and a plurality of convex patterns, the gate line defining a pixel region with the data line;
forming a second insulating layer on the gate electrode, the gate line and the plurality of convex patterns;
forming a reflective plate on the second insulating layer at the pixel region through a third mask process, the reflective plate having a transmissive hole and an unevenness;
depositing a third insulating layer on the reflective plate;
etching the third insulating layer through a fourth mask process to form a drain contact hole exposing the drain electrode and a transmissive groove corresponding to the transmissive hole; and
forming a pixel electrode on the third insulating layer through a fifth mask process, the pixel electrode being connected to the drain electrode through the drain contact hole. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29, 30)
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Specification