JP2015206829A5 - - Google Patents

Description

A first embodiment (embodiment 1) in which a shield layer is provided on a signal wiring layer will be described with reference to FIGS.
FIG. 5 is a plan view for explaining the structure of the display device according to the first embodiment. FIG. 6 is an enlarged view of a portion indicated by a broken line C in FIG. FIG. 7 is a cross-sectional view taken along the line AA ′ of FIG.
The display device 100A according to the first embodiment has the same pixel configuration and arrangement as the display device 100 according to the comparative example. That is, the structure of the counter substrate 20 is the same. The display device 100A includes an array substrate 10A, a counter substrate 20, and a liquid crystal layer 30 disposed between the array substrate 10A and the counter substrate 20. Note that R, G, and B vertical stripe-shaped subpixels may be provided, and RGB may be one pixel. That is, the color filter 23 may be repeatedly arranged in the order of R, G, and B in the row direction (X direction), and the same color may be arranged in the column direction (Y direction) of the color filter 23.
In the array substrate 10A, the pixel electrode layer 17A is disposed on the signal wiring layer (video signal wiring layer, second signal wiring layer) 12 via the planarization film 13. A common electrode layer 14A is disposed on the pixel electrode layer 17A via the insulating layer 16. The common electrode layer 14 </ b> A extends in a direction (Y direction) parallel to the signal wiring layer 12, and is divided and periodically arranged in the X direction. The scanning wiring layer (scanning signal wiring layer, first signal wiring layer) 11 extends in the X direction. The divided region 18A of the common electrode 14A is disposed at a position where the signal wiring layer 12 is not disposed and across the scanning wiring layer 11. A slit is formed in the common electrode layer 14A at the opening of the subpixel. The signal wiring layer 12 is covered with a common electrode layer 14A. An auxiliary wiring layer (first wiring layer) 15A is disposed on the signal wiring layer 12 in contact with the common electrode layer 14A. In other words, the auxiliary wiring layer 15A is disposed between the different color subpixels. The auxiliary wiring layer 15 </ b> A is disposed so as to be covered with the light shielding layer 22. On the scanning wiring layer 11, there is a common electrode layer 14A. The divided region 18A is disposed at a position where the auxiliary wiring layer 15A is not disposed and across the scanning wiring layer 11. The divided regions 18A are arranged so as to be covered with the light shielding layer 22. The common electrode layer 14A and the pixel electrode layer 17A are formed of a light-transmitting conductive film such as ITO (Indium Tin Oxide), and the auxiliary wiring layer 15A and the signal wiring layer 12 are formed of a metal film (light-shielding conductive film).

The outline of the first embodiment will be briefly described as follows.
(1) The display device includes an array substrate, a counter substrate, and a liquid crystal layer disposed between the array substrate and the counter substrate. The array substrate is disposed in a scanning signal wiring layer extending in a first direction, a video signal wiring layer extending in a second direction different from the first direction, and an upper layer than the video signal wiring layer A pixel electrode layer and a common electrode layer disposed above the pixel electrode layer. The common electrode layer is arranged at a position covering the video signal wiring layer in plan view, and the common electrode layer is divided in the second direction.
(2) In the display device of the above (1), the portion where the common electrode layer is divided is set to a position crossing the scanning signal wiring layer between any adjacent video signal wiring layers.
(3) In the display device of (1), the display device includes an auxiliary wiring layer disposed so as to be in contact with the common electrode layer, and the auxiliary wiring layer is disposed at a position covering the video signal wiring layer in a plan view. To be done.
(4) In the display device according to (3), a portion where the common electrode layer is divided is set to a position where the auxiliary wiring layer is not disposed.
(5) In the display device of (3), the auxiliary wiring layer is a light-shielding conductive film.
(6) In the display device according to (1), the common electrode layer is disposed at a position covering the scanning signal wiring layer in a plan view.
(7) In the display device of (1), the counter substrate includes a light shielding layer and a colored layer. The light shielding layer is arranged at a position covering the auxiliary wiring layer in plan view.
(8) In the display device according to (7), the light shielding layer is arranged at a position covering a portion where the common electrode layer is divided in a plan view.
(9) In the display device of the above (1), wherein the pixel electrode and the common conductive electrode layer is transparent conductive film.
(10) In the display device of (1), the counter substrate includes a detection electrode wiring layer extending in the first direction. The common conductive electrode layer also serves the function of driving the electrode wiring layers of the in-cell touch panel.

(11) The display device includes a first substrate and a second substrate. The array substrate includes a first signal wiring layer extending in a first direction, a second signal wiring layer extending in a second direction different from the first direction, and the second signal wiring. A pixel electrode layer disposed above the layer, a common electrode layer disposed above the pixel electrode layer, and a first wiring layer disposed so as to be in contact with the common electrode layer, Prepare. The common electrode layer is arranged at a position covering the second signal wiring layer in plan view. The first wiring layer is arranged at a position covering the second signal wiring layer in plan view. The common electrode layer is divided in the second direction.
(12) In the display device of the above (11), the portion where the common electrode layer is divided is set to a position where the first wiring layer is not disposed.
(13) In the display device of (11), the common electrode layer is disposed at a position covering the first signal wiring layer in plan view.
(14) In the display device of (11), the second substrate includes a light shielding layer. The light shielding layer is arranged at a position covering the wiring layer in plan view.
(15) In the display device of (11), the first wiring layer is arranged between the different color sub-pixels in plan view.
(16) In the display device of the above (11), wherein the pixel electrode and the common conductive electrode layer is transparent conductive film. The first wiring layer is a light-shielding conductive film.
(17) In the display device of (11), the second substrate includes a detection electrode wiring layer extending in the first direction. The common conductive electrode layer also serves the function of driving the electrode wiring layers of the in-cell touch panel.
(18) In the display device of (11), the first signal wiring layer is a scanning signal wiring layer. The second signal wiring layer is a video signal wiring layer.
(19) The display device according to (11), further including a liquid crystal layer disposed between the first substrate and the second substrate.

The outline of the second embodiment will be briefly described as follows.
(1) The display device includes an array substrate, a counter substrate, and a liquid crystal layer disposed between the array substrate and the counter substrate. The array substrate includes a scanning signal wiring layer extending in a first direction, a video signal wiring layer extending in a second direction different from the first direction, and an auxiliary extending in the second direction. A wiring layer, a first insulating layer, a second insulating layer, a common electrode layer disposed below the auxiliary wiring layer via the first insulating layer, and an upper layer than the auxiliary wiring layer And a pixel electrode layer disposed via the second insulating layer. The auxiliary wiring layer is arranged at a position covering the video signal wiring layer in plan view. The common electrode layer is divided in the second direction on the video signal wiring layer.
(2) In the display device of the above (1), the pixel electrode layer is isolated and has the same wiring layer as the pixel electrode layer. The common electrode layer is connected to the auxiliary wiring layer through the wiring layer.
(3) In the display device of (2), the first contact hole penetrating the first insulating layer and the second insulating layer on the common electrode layer , and the second contact on the auxiliary wiring layer. A second contact hole of the insulating layer. The wiring layer connects the common electrode layer in the first contact hole and the auxiliary wiring layer in the second contact hole.
(4) In the display device of (1), the counter substrate includes a colored layer and a light shielding layer. The light shielding layer is arranged at a position covering the auxiliary wiring layer in plan view.
(5) In the display device of (1), the auxiliary wiring layer is arranged between the different color sub-pixels in plan view.
(6) In the display device of the above (1), wherein the common conductive electrode layer and the pixel electrode layer is transparent conductive film. The auxiliary wiring layer is a light-shielding conductive film.
(7) In the display device of (1), the counter substrate includes a detection electrode wiring layer extending in the first direction. The common conductive electrode layer also serves the function of driving the electrode wiring layers of the in-cell touch panel.

(8) The display device includes a first substrate and a second substrate. The first substrate includes a first signal wiring layer extending in a first direction, a second signal wiring layer extending in a second direction different from the first direction, and the second signal wiring layer. A first wiring layer extending in a direction, a first insulating layer, a second insulating layer, and a common electrode disposed below the first wiring layer via the first insulating layer And a pixel electrode layer disposed above the first wiring layer via the second insulating layer. The first wiring layer is arranged at a position covering the second signal wiring layer in plan view. The common electrode layer is divided in the second direction on the second signal wiring layer.
(9) In the display device according to (8), the pixel electrode layer is isolated from the pixel electrode layer and has the same second wiring layer as the pixel electrode layer. The common electrode layer is connected to the first wiring layer through the second wiring layer.
(10) In the display device according to (9), the first contact hole that penetrates the first insulating layer and the second insulating layer on the common electrode layer , and the first wiring layer on the first wiring layer. And a second contact hole of the second insulating layer. The second wiring layer connects the common electrode layer in the first contact hole and the auxiliary wiring layer in the second contact hole.
(11) In the display device of (8), the second substrate includes a light shielding layer and a colored layer. The light shielding layer is arranged at a position covering the first wiring layer in plan view.
(12) In the display device of (8), the first wiring layer is arranged between the different color sub-pixels in plan view.
(13) In the display device of the above (8), said common conductive electrode layer and the pixel electrode layer is transparent conductive film. The first wiring layer is a light-shielding conductive film.
(14) In the display device of (8), the second substrate includes a detection electrode wiring layer extending in the first direction. The common conductive electrode layer also serves the function of driving the electrode wiring layers of the in-cell touch panel.
(15) In the display device of (8), the first signal wiring layer is a scanning signal wiring layer. The second signal wiring layer is a video signal wiring layer.
(16) The display device according to (8), further including a liquid crystal layer disposed between the first substrate and the second substrate.

Claims (19)

The display device
An array substrate;
A counter substrate;
A liquid crystal layer disposed between the array substrate and the counter substrate;
With
The array substrate is
A scanning signal wiring layer extending in a first direction;
A video signal wiring layer extending in a second direction different from the first direction;
A pixel electrode layer disposed above the video signal wiring layer;
A common electrode layer disposed above the pixel electrode layer;
With
The common electrode layer is arranged at a position covering the video signal wiring layer in plan view,
The common electrode layer is divided in the second direction. The display device according to claim 1.
A portion where the common electrode layer is divided is set so as to cross the scanning signal wiring layer between any adjacent video signal wiring layers. The display device according to claim 1.
An auxiliary wiring layer disposed on and in contact with the common electrode layer;
The auxiliary wiring layer is arranged at a position covering the video signal wiring layer in plan view. The display device according to claim 3.
The common electrode layer is divided at a position where the auxiliary wiring layer is not disposed. The display device according to claim 3.
The auxiliary wiring layer is a light-shielding conductive film. The display device according to claim 1.
The common electrode layer is arranged at a position covering the scanning signal wiring layer in plan view. The display device according to claim 1.
The counter substrate includes a light shielding layer and a colored layer,
The light shielding layer is arranged at a position covering the auxiliary wiring layer in plan view. The display device according to claim 7.
The light shielding layer is disposed at a position covering a portion where the common electrode layer is divided in a plan view. The display device according to claim 1.
The pixel electrode and the common conductive electrode layer is transparent conductive film. The display device according to claim 1.
The counter substrate includes a detection electrode wiring layer extending in the first direction,
The common conductive electrode layer also serves the function of driving the electrode wiring layers of the in-cell touch panel. The display device
A first substrate;
A second substrate;
With
The array substrate is
A first signal wiring layer extending in a first direction;
A second signal wiring layer extending in a second direction different from the first direction;
A pixel electrode layer disposed above the second signal wiring layer;
A common electrode layer disposed above the pixel electrode layer;
A first wiring layer disposed on and in contact with the common electrode layer;
With
The common electrode layer is arranged at a position covering the second signal wiring layer in plan view,
The first wiring layer is arranged at a position covering the second signal wiring layer in plan view,
The common electrode layer is divided in the second direction. The display device according to claim 11.
The portion where the common electrode layer is divided is set to a position where the first wiring layer is not disposed. The display device according to claim 11.
The common electrode layer is arranged at a position covering the first signal wiring layer in plan view. The display device according to claim 11.
The second substrate includes a light shielding layer;
The light shielding layer is arranged at a position covering the first wiring layer in plan view. The display device according to claim 11.
The first wiring layer is arranged between the different color sub-pixels in plan view. The display device according to claim 11.
The pixel electrode and the common conductive electrode layer is a transparent conductive film,
The wiring layer is a light-shielding conductive film. The display device according to claim 11.
The second substrate includes a detection electrode wiring layer extending in the first direction,
The common conductive electrode layer also serves the function of driving the electrode wiring layers of the in-cell touch panel. The display device according to claim 11.
The first signal wiring layer is a scanning signal wiring layer;
The second signal wiring layer is a video signal wiring layer. The display device of claim 11, further comprising:
A liquid crystal layer is provided between the first substrate and the second substrate.