JP2012068405A5 - - Google Patents

Description

FIG. 11 shows a schematic configuration diagram of the touch panel. This device is a device in which a touch panel function is built in a liquid crystal display device, and is also an image display device. In this apparatus, a first substrate (TFT substrate) and a second substrate (color filter substrate) are arranged to face each other, and a plurality of pixel electrodes 1 are arranged on the first substrate in the first direction (X direction) and the second direction. They are formed at regular intervals in the second direction (Y-direction). Each pixel electrode 1 is formed in a rectangular shape. A thin film transistor (hereinafter referred to as TFT) 2 as a pixel transistor is connected to one end of each pixel electrode 1.

Each between each pixel electrode 1 in the Y direction, the TFT2 are arranged, the gate wiring 5 as a scanning line, a storage capacitor lines 6, and Y coordinate detection lines 7 are wiring.

However, in the touch panel, the TFT 2, the gate wiring 5, and the auxiliary capacitance wiring 6 are arranged between the Y directions of the pixel electrodes 1, and the X coordinate is arranged on the Y coordinate detection wiring 7 and the Y coordinate detection wiring 7. The detection contact portion 9 or the Y coordinate detection contact portion 10 or the base portion 11 is arranged.

As a factor contributing to the improvement of the display performance of the liquid crystal display device, for example, the display brightness, for example, the size of each pixel electrode 1, that is, the aperture ratio of the liquid crystal display device is increased. However, in the liquid crystal display device, the TFT 2, the gate wiring 5, and the auxiliary capacitance wiring 6 are arranged between the pixel electrodes 1, and the Y coordinate detection wiring 7 and the Y coordinate detection wiring 7 are used as touch functions. Since the X-coordinate detection contact portion 9 or the Y-coordinate detection contact portion 10 or the base portion 11 is disposed at the same position, the size of each pixel electrode 1, that is, the aperture ratio as a liquid crystal display device cannot be increased.

To fulfill the above object, one aspect of the liquid crystal display instrumentation of the present invention are sealed between the first substrate and the second substrate, said second substrate and said first substrate opposed to each other a liquid crystal layer, provided on the first substrate, the first direction and the first direction and a second direction perpendicular, pixels are arranged in the electrode, provided on said second substrate A counter electrode disposed opposite to the pixel electrode; a pixel transistor connected to the pixel electrode; a scan line extending in the first direction for supplying a scan signal to the pixel transistor; possess a signal line extending in the second direction for supplying a display signal to the pixel transistor, and a storage capacitance line extending in the first direction to form the auxiliary capacitance between the pixel electrode, of distance between the pixel electrodes adjacent in the second direction, the first The pixel electrode spacing, wherein each pixel transistor connected to each pixel electrode adjacent, and each scanning line connected to each pixel transistor, output signal lines extending extending from the signal line and parts, been arranged, the signal lines extending portion, said are commonly connected to each pixel transistor, and wherein the.

Also, to fulfill the above object, one aspect of the touch panel of the present invention are sealed between the first substrate and the second substrate, said second substrate and said first substrate opposed to each other a liquid crystal layer, provided on the first substrate, the first direction and the first direction and a second direction perpendicular, pixels are arranged in the electrode, provided on said second substrate A counter electrode disposed opposite to the pixel electrode; a pixel transistor connected to the pixel electrode; a scan line extending in the first direction for supplying a scan signal to the pixel transistor; A signal line extending in the second direction for supplying a display signal to the pixel transistor, an auxiliary capacitance line extending in the first direction for forming an auxiliary capacitance between the pixel electrode, and the first A first coordinate detection wiring extended in a direction, and the second Possess a second coordinate detection wires that are stretched in the direction, a, of the distance between the pixel electrodes adjacent in the second direction, the first pixel electrode spacing to each pixel electrode of the adjacent and connected to said respective pixel transistors, wherein each scan line connected to each pixel transistor, a rolled out a signal line extended portion from the signal line, is the arrangement, the signal lines extending portion is the are commonly connected to each pixel transistor, it is characterized.

FIG. 1 shows a configuration diagram of a touch panel. The device 200 is a device in which a touch panel function is built in a liquid crystal display device, and is also an image display device. This device 200, the first substrate and (TFT substrate) and a second substrate (color filter substrate) is provided which face each other, a plurality of pixel electrodes 1 are provided over the first substrate of this The counter electrode 20 is provided on the second substrate through a color filter layer. The pixel electrode 1 and the counter electrode 20 are disposed to face each other. A liquid crystal is sealed between each pixel electrode 1 and the counter electrode 20 to form a liquid crystal layer Q.

The plurality of pixel electrodes 1 are each formed in a rectangular shape, and a plurality of pixel electrodes 1 are arranged at regular intervals in the XY direction. Among the pixel electrodes 1, a first pixel electrode interval W1 or a second pixel electrode interval W2 is formed between the pixel electrodes 1 adjacent in the Y direction. The first pixel electrode interval W1 and the second pixel electrode interval W2 are alternately formed in the Y direction.

The second pixel electrode spacing W2, and two storage capacitor line 6, and Y coordinate detection lines 7 are wiring.

Further, the apparatus 200 includes a data driver (data driver circuit) 21, a scanning driver (scanning drive circuit) 22, an X-coordinate detection unit 23, a Y-coordinate detection unit 25, is provided.

Thus, the scanning signals of the plurality of TFT2 is supplied to the gate electrode by a gate line 5, and the image signal and the TFT2 of the drain electrode and the source electrode supplied to the drain electrode is made conductive by the data lines 3, the continuity The voltage corresponding to the image signal is written to the pixel electrode 1 connected to the source electrode. Then, a voltage difference is generated between the pixel electrode 1 and the counter electrode 20, and the liquid crystal layer Q is driven.

The second inter-pixel electrodes W2, as described above, the two storage capacitor line 6, and Y coordinate detection lines 7, it is arranged.

On the other hand, the second substrate (color filter substrate), a color filter 103, a black matrix 104, a plurality of contact protrusions 105, is provided. These contact projections 105 are provided to face the X coordinate detection contact portion 9, the Y coordinate detection contact portion 10, and the base portion 11, respectively. A counter electrode 20 is provided on the contact protrusions 105, the color filter 103, and the black matrix 104.

Next, as illustrated in FIGS. 5A to 5D, a transparent gate insulating film 100 using, for example, a silicon nitride film (SiNx) is formed on the first substrate with the gate wiring 5 and the Y coordinate detection. It is formed so as to cover the wiring 7.

When the transparent conductive film 62 is formed, a part of the cross section of the TFT 2 illustrated in FIGS. 7A to 7D, a part of the cross section of the base part 11, and a cross section of the X coordinate detection contact part 9. some of, and each of the cross section of a part of Y coordinate detecting contact portion 10, since it is formed simultaneously in common to the above-described creation method for forming TFT2 Therefore on the first substrate, the first substrate The height from above is the same.

Claims (8)

A first substrate and a second substrate disposed opposite to each other;
A liquid crystal layer sealed between the first substrate and the second substrate,
Provided on the first substrate, the first direction and the first direction and a second direction perpendicular, pixels are arranged in the electrode,
A counter electrode provided on the second substrate and disposed to face the pixel electrode;
A pixel transistor connected to the pixel electrode;
A scanning line extending in the first direction for supplying a scanning signal to the pixel transistor;
A signal line extending in the second direction for supplying a display signal to the pixel transistor;
An auxiliary capacitance line extending in the first direction to form an auxiliary capacitance with the pixel electrode;
I have a,
Of the intervals between the pixel electrodes adjacent to each other in the second direction,
The first pixel electrode spacing, wherein each pixel transistor connected to each pixel electrode adjacent, and each scanning line connected to each pixel transistors, extending out the signal from the signal line A line extending portion, and
The signal line extending portion is commonly connected to the respective pixel transistors,
A liquid crystal display device characterized by the above. In the first pixel electrode interval,
One pixel transistor connected to one adjacent pixel electrode and one scanning line connected to the one pixel transistor are arranged,
The other pixel transistor connected to the other adjacent pixel electrode and the other scanning line connected to the other pixel transistor are arranged,
The signal line extending portion is disposed, the signal lines extending portion are connected in common to said other pixel transistors and the one of the pixel transistor between the scan lines of the other and the one scanning line in Rukoto, wherein the one of the pixel transistor and the other pixel transistors are adjacent in the second direction,
The liquid crystal display device according to claim 1. Of the intervals between the pixel electrodes adjacent to each other in the second direction,
The second pixel electrode spacing, placing the respective auxiliary capacitance lines corresponding to each pixel electrode of the adjacent,
The first pixel electrode interval and the second pixel electrode interval are alternately arranged along the second direction.
The liquid crystal display device according to claim 1. A first substrate and a second substrate disposed opposite to each other;
A liquid crystal layer sealed between the first substrate and the second substrate,
Provided on the first substrate, the first direction and the first direction and a second direction perpendicular, pixels are arranged in the electrode,
A counter electrode provided on the second substrate and disposed to face the pixel electrode;
A pixel transistor connected to the pixel electrode;
A scanning line extending in the first direction for supplying a scanning signal to the pixel transistor;
A signal line extending in the second direction for supplying a display signal to the pixel transistor;
An auxiliary capacitance line extending in the first direction to form an auxiliary capacitance with the pixel electrode;
A first coordinate detection wiring extended in the first direction;
A second coordinate detection wiring extended in the second direction;
I have a,
Of the intervals between the pixel electrodes adjacent to each other in the second direction,
The first pixel electrode spacing, wherein each pixel transistor connected to each pixel electrode adjacent, and each scanning line connected to each pixel transistors, extending out the signal from the signal line A line extending portion, and
The signal line extending portion is commonly connected to the respective pixel transistors,
A touch panel characterized by that. In the first pixel electrode interval,
One pixel transistor connected to one adjacent pixel electrode and one scanning line connected to the one pixel transistor are arranged,
The other pixel transistor connected to the other adjacent pixel electrode and the other scanning line connected to the other pixel transistor are arranged,
The signal line extending portion is disposed, the signal lines extending portion are connected in common to said other pixel transistors and the one of the pixel transistor between the scan lines of the other and the one scanning line in Rukoto, wherein the one of the pixel transistor and the other pixel transistors are adjacent in the second direction,
The touch panel according to claim 4. Of the intervals between the pixel electrodes adjacent to each other in the second direction,
The second pixel electrode spacing, the and the auxiliary capacitor line corresponding to each pixel electrode of the adjacent, the a first coordinate detection sense line, was placed,
The first pixel electrode interval and the second pixel electrode interval are alternately arranged along the second direction.
The touch panel according to claim 4. In the second pixel electrode interval,
One of the auxiliary capacitance lines corresponding to the one adjacent pixel electrode and the other auxiliary capacitance line corresponding to the other adjacent pixel electrode are disposed,
The first coordinate detection sensing line is disposed between the other of the auxiliary capacitance line and the one of the storage capacitor line,
The touch panel according to claim 6. A contact protrusion provided on the second substrate and having the counter electrode as a contact electrode;
A first coordinate detection contact portion connected to the first coordinate detection wiring, which is electrically connected to the contact protrusion when the second substrate is pressed from outside;
A second coordinate detection contact portion connected to the second coordinate detection wiring, which is electrically connected to the contact protrusion when the second substrate is pressed from outside;
When the second substrate is not subjected to pressure from outside, the contact between the contact projecting portion and the contact separation and the contact projecting portion and the second coordinate detecting contact portion between the first coordinate detecting contact portion A base part connected to the first coordinate detection wiring, in which the columnar spacer contacts to maintain the interval,
For example further Bei a,
In the first coordinate detection detection line in the second pixel electrode interval,
It said first coordinate detecting contact portion, wherein the second coordinate detecting contact portion extending from the second coordinate detection sensing line, the base portion, is either one of which is arranged,
The touch panel according to claim 7.