Array substrate for in-plane switching liquid crystal display device with polycrystalline silicon pixel electrode and method of manufacturing the same
First Claim
1. An array substrate for an in-plane switching liquid crystal display device, comprising:
- a gate line on a substrate;
a data line crossing the gate line to define a pixel region;
a semiconductor layer including an active area and a source area, wherein the active area overlaps the gate line and the source area overlaps the data line;
a drain electrode connected to the semiconductor layer;
a first capacitor electrode in the pixel region and connected to the drain electrode;
a pixel electrode connected to the first capacitor electrode and substantially in parallel to the data line;
a common line substantially parallel to the gate line;
a second capacitor electrode connected to the common line and overlapping the first capacitor electrode; and
a common electrode connected to the common line and alternatively arranged with the pixel electrode, wherein the source area of the semiconductor layer, the drain electrode, the first capacitor electrode and the pixel electrode include doped polycrystalline silicon.
2 Assignments
0 Petitions
Accused Products
Abstract
An array substrate for in-plane switching liquid crystal display device includes a gate line on a substrate, a data line crossing the gate line to define a pixel region, a semiconductor layer including an active area and a source area, wherein the active area overlaps the gate line and the source area overlaps the data line, a drain electrode connected to the semiconductor layer, a first capacitor electrode in the pixel region and connected to the drain electrode, a pixel electrode connected to the first capacitor electrode and substantially in parallel to the data line, a common line substantially parallel to the gate line, a second capacitor electrode connected to the common line and overlapping the first capacitor electrode, and a common electrode connected to the common line and alternatively arranged with the pixel electrode, wherein the source area of the semiconductive layer, the drain electrode, the first capacitor electrode and the pixel electrode include doped polycrystalline silicon.
-
Citations
23 Claims
-
1. An array substrate for an in-plane switching liquid crystal display device, comprising:
-
a gate line on a substrate;
a data line crossing the gate line to define a pixel region;
a semiconductor layer including an active area and a source area, wherein the active area overlaps the gate line and the source area overlaps the data line;
a drain electrode connected to the semiconductor layer;
a first capacitor electrode in the pixel region and connected to the drain electrode;
a pixel electrode connected to the first capacitor electrode and substantially in parallel to the data line;
a common line substantially parallel to the gate line;
a second capacitor electrode connected to the common line and overlapping the first capacitor electrode; and
a common electrode connected to the common line and alternatively arranged with the pixel electrode, wherein the source area of the semiconductor layer, the drain electrode, the first capacitor electrode and the pixel electrode include doped polycrystalline silicon. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. An array substrate for an in-plane switching liquid crystal display device, comprising:
-
a gate line on a substrate;
a data line crossing the gate line to define a pixel region;
a semiconductor layer including an active area and a source area, wherein the active area overlaps the gate line and the source area overlaps the data line;
a drain electrode connected to the semiconductor layer;
a first capacitor electrode in the pixel region and connected to the drain electrode;
a pixel electrode connected to the first capacitor electrode and substantially in parallel to the data line;
a first common line substantially parallel to the gate line;
a second capacitor electrode connected to the first common line and overlapping the first capacitor electrode;
an auxiliary capacitor electrode covering and connected to the second capacitor electrode;
a second common line covering and connected to the auxiliary capacitor electrode; and
a common electrode connected to the second common line and alternatively arranged with the pixel electrode, wherein the source area of the semiconductor layer, the drain electrode, the first capacitor electrode and the pixel electrode include doped polycrystalline silicon. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
-
-
17-20. -20. (canceled)
-
21. An array substrate for an in-plane switching liquid crystal display device, comprising:
-
a gate line on a substrate in a first direction and including a gate electrode;
a data line in a second direction including a source electrode and crossing the gate line to define a pixel region;
a first capacitor electrode in the pixel region;
a common line of the second direction;
a common electrode extending from the common line;
a drain electrode spaced apart from the source electrode;
a second capacitor electrode overlapping the first capacitor electrode;
a pixel electrode alternatively arranged with the common electrode; and
a semiconductor layer covering the gate electrode and overlapping the source electrode, the semiconductor layer including an active layer and an ohmic contact layer, wherein the ohmic contact layer, the drain electrode, the second capacitor electrode and the pixel electrode include doped amorphous silicon permitting light-transmission. - View Dependent Claims (22)
-
-
23. An array substrate for an in-plane switching liquid crystal display device, comprising:
-
a gate line of a first direction;
a data line of a second direction, wherein the data line crosses the gate line to define a pixel region;
a thin film transistor arranged at a crossing of the gate and data lines;
a pixel electrode of the second direction connected to the thin film transistor, the pixel electrode including doped semiconductor material permitting light-transmission; and
a common electrode of the second direction alternatively arranged with the pixel electrode.
-
Specification