KR20140112626A - Touch panel - Google Patents

Abstract

The present invention is to disclose a touch panel implementing sensing of a touch using capacitance. The touch panel comprises first pads arranged to form a row; and a second pad passing through the area spaced apart between the first pads in a zigzag pattern. The first pads and the second pad are formed in identical layers.

Description

TOUCH PANEL {TOUCH PANEL}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a touch panel, and more particularly, to a touch panel that realizes sensing of a touch using a capacitance.

The touch panel means a transparent switch panel having a function of operating a device or executing a program in response to a user pressing a text, an image, an icon or the like in combination with the display panel.

The touch panel may be configured as an electrostatic type. Among them, a mutual capacitance touch sensing device is disclosed in U.S. Patent Application Publication No. 2009/0091551.

A conventional touch panel generally has a two-layer structure in order to realize mutual capacitance sensing.

That is, the first layer including the plurality of driving lines and the pads connected to the driving lines, and the second layer including the plurality of sensing lines and the pads connected to the sensing lines are formed of different layers.

The conventional touch panel has a two-layer structure in order to realize mutual capacitance sensing, and thus requires a plurality of manufacturing processes for each layer.

Further, when the touch panel is constituted by a two-layer structure, the number of components constituting the touch panel is increased.

As described above, the conventional touch panel requires a number of manufacturing steps and increases the number of parts. Therefore, it is difficult to reduce the cost required for manufacturing and to improve the yield.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a touch panel in which capacitance variation is sensed in a single layer.

Another object of the present invention is to provide a touch panel capable of reducing the manufacturing cost and improving the yield by improving the layer structure for realizing the sensing of the capacitance change.

The touch panel according to the present invention is characterized in that the touch panel according to the present invention comprises: first pads arranged to form a row; And a zigzag shaped second pad passing through a spaced space between the first pads, wherein the first pads and the second pads are formed of the same layer.

Therefore, according to the present invention, the touch panel can be implemented in a single layer, and the capacitance change can be sensed in a single layer of simple pattern.

In addition, since the layer structure for sensing the capacitance change is improved to a single layer, the manufacturing cost can be reduced and the yield can be improved.

1 is a layout diagram showing a preferred embodiment of a touch panel according to the present invention.
2 to 6 are layout views showing other embodiments of a touch panel according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the terminology used herein is for the purpose of description and should not be interpreted as limiting the scope of the present invention.

The embodiments described in the present specification and the configurations shown in the drawings are preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention and thus various equivalents and modifications Can be.

The present invention discloses a touch panel having a one-layer (single layer) structure for realizing mutual capacitance sensing, wherein pads to which a driving signal is applied and a sensing signal is output are formed in the same layer.

The embodiment of the touch panel according to the present invention can be configured to be driven by a peripheral device including a driving circuit (not shown), a sensing circuit (not shown) and a control circuit (not shown).

According to an embodiment of the present invention, a touch panel is driven under the control of a control circuit, and the drive circuit periodically outputs a drive signal of a constant voltage to the touch panel under the control of the control circuit, And the control circuit determines a position where the touch is made as a sensing signal output from the sensing circuit.

The driving signal for driving the touch panel is described as using the pulse signal in the embodiment according to the present invention. Alternatively, the drive signal may be a signal of a constant voltage type in accordance with the manufacturer's intention.

Referring to FIG. 1, an embodiment of a touch panel according to the present invention includes a plurality of first pads 10 arranged in rows and a plurality of first pads 10 arranged in the same column, And a second pad (12). The pattern in which the first pads and the first pad are combined is repeated to form a plurality of rows, thereby realizing the touch panel of the embodiment of the present invention.

Here, the first pads 10 and the second pads 12 are formed on the same layer, and a change in capacitance between the first pad 10 and the second pad 12 corresponding to a specific position is detected, Can be sensed.

The embodiment of Figure 1 may be configured such that a drive signal is applied to the first pads 10, in which case the second pads 12 may be configured to output a sensing signal.

In contrast, the embodiment of FIG. 1 may be configured such that a drive signal is applied to the second pads 12, in which case the first pads 10 may be configured to output a sensing signal.

There are mutual capacitances between the first pads 10 and the second pads 12 of FIG. If a touch is made at a specific position, a sensing signal corresponding to a capacitance change is output, and a position at which the touch is made can be determined by the application time of the driving signal and the change of the sensing signal.

The first pads 10 arranged in rows and columns in FIG. 1 may be formed to have a rectangular plane. In addition, the first pads 10 are spaced apart at uniform intervals in rows and columns, and each first pad preferably has the same area and shape. The first pads 10 having a rectangular shape are exemplified as an embodiment and can be designed to have various shapes such as a polygonal shape and a circular shape according to the intention of the maker.

The second pads 12 are formed one by one for each row of the first pads 10 and have a zigzag shape passing through a spaced space between the first pads 10 included in the same row. In addition, the second pads 12 are formed to have the same shape for each column of the first pads 10.

The second pads 12 may be spaced apart from the first pads 10 by a predetermined distance, and the second pads 12 may be formed to have a predetermined width. The second pads 12 having a zigzag shape according to the manufacturer's intention can be designed to have different widths of the horizontal line and the vertical line.

The second pads 12 have a zigzag extended shape in the column direction in which the first pads 10 are disposed, as described above. Therefore, the second pads 12 have a shape that opens only one of four sides of each of the first pads 10 included in the same row and surrounds the remaining three sides. The second pads 12 have a rectangularly bent region at a position corresponding to the vertex of the first pads 10 as the first pads 10 are formed in a rectangular shape.

A plurality of lines 14 are formed at one end of the first pads 10 in the column direction. The lines 14 are wirings for applying a driving signal and outputting a sensing signal.

The lines 14 may be configured as a number corresponding to the second pads 12 and the first pads 10 included in each column, Water. Since the lines connecting with the second pads 12 may be the same as the lines 14 connected to the first pads 10, detailed description thereof will be omitted.

Each of the first pads 10 included in the same row is connected to the lines 14 one by one through the connection pattern 16 extending through the open area of the zigzag shaped second pad 12 . Accordingly, the odd-numbered first pads 10 and the even-numbered first pads 10 are formed in opposite directions to each other.

The connection pattern 16 may extend from the position where the first pads 10 are formed to the lines 14 and may be connected via the contacts 14 to the lines 14.

The first pads 10 and the second pads 12 may be generally formed of a transparent electrode ITO and the lines 14 may be formed of the first and second pads 10 and 12, And may be formed of another conductive material on another layer. Therefore, the connection pattern 16 and the line 14 extending to the first pads 10 can be connected to a contact 18 for conventional interlayer electrical connection.

As shown in FIG. 1, a touch panel that performs sensing by changing a mutual capacitance on the same layer may be implemented.

On the other hand, in the embodiment according to the present invention, the connection pattern 16 increases by the number of the first pads 10 extending when the number of rows is increased and the length of the column is increased. Then, the area of the touch pad can be increased in proportion to the number of connection patterns 16 that are increased.

As described above, in the embodiment according to the present invention, the connection patterns 16 are formed on the first pads 10 in correspondence with the increase of the first pads 10 and the increase of the connection patterns 16, And can be formed by dividing by the position. Since the first pads 10 and the second pads 12 of FIG. 2 have the same configuration as FIG. 1, a duplicate description thereof will be omitted.

In the embodiment of FIG. 2, the first pads 10 forming the same row are divided into a first group and a second group based on a specific position of the row, for example, the center, and the first pads 10, Have a configuration extending to the ends of the columns in mutually opposite directions.

To this end, the number of the first lines 14_1 corresponding to the first group is formed at one end of the column, that is, the upper side of the column, and the number of the second lines 14_2 corresponding to the second group is formed at the other end of the column, .

Each of the first pads 10 included in the first group is connected to the first connection pattern 16_1 and the first connection pattern 16_1 is connected to the region where the second pad 12 having a zigzag shape is opened One-to-one contact with the first lines 14_1 arranged on one end of the row, that is, on the upper side.

Each of the first pads 10 included in the second group is connected to the second connection pattern 16_2 and the second connection pattern 16_2 is connected to the second pad 12 having the zigzag shape One-to-one contact with the second lines 14_2 arranged at the other end of the column, that is, the lower side via the region.

2, when the number of rows is increased and the length of the column is increased, the connection pattern 16 can be divided and formed based on the center of the row of the first pads 10, Can be prevented from increasing.

In addition, the embodiment according to the present invention can be modified as shown in FIG. 3 in order to prevent an increase in the area of the touch pad by the connection pattern 16. In the embodiment of FIG. 3, the first pad 10 is constructed in the same manner as in FIG. 1, and a duplicate description thereof will be omitted.

In the embodiment of FIG. 3, the second pads 12 in adjacent rows are formed to have a symmetrical shape with a zigzag shape.

Referring to FIG. 3, the first pads 10 of each row and the corresponding number of lines 14 are formed at one end of the row of the second pad 12.

A connection pattern 16 is formed in each of the first pads 10. The connection pattern 16 is formed in such a manner that the zigzag-shaped second pad 12 is opened at each position of the first pads 10 One-to-one contact with the lines 14 disposed at one end of the row via the region.

Here, the connecting patterns 16 extending from the first pads 10 of the adjacent rows extend in the direction facing each other. Therefore, the first pads 10 of the column furthest from the lines 14 can be formed so that the connection pattern 16c extending to the lines 14 is shared.

3, it is possible to prevent the area of the touch pad from being increased by reducing the number of the connection patterns 16.

3, in order to prevent the area of the touch pad from increasing when the length of the row of the first pad 10 is increased, the connection of the first pad 10 with respect to the center of the row of the first pads 10 The pattern 16 may be dividedly formed.

Meanwhile, the embodiment of the touch pad according to the present invention can be constructed by modifying the first pad 10 as in the embodiment of FIG.

The first pad 10 may include an inner isolation pattern 20 and an outer ring pattern 22 spaced from each other.

Here, the isolation pattern 20 may be configured to have a polygonal shaped surface, and the ring pattern 22 may be configured to have a polygonal ring shape corresponding to the isolation pattern 20. It is preferable that the separation distance between the isolation pattern 20 and the ring pattern 22 is kept constant.

In the embodiment of FIG. 4, the connection pattern 16 is connected to the ring pattern 22 of the first pad 10.

In the embodiment of FIG. 4, when the first pads 10 of each row and the corresponding number of lines 14 are formed at one end of the row of the first pad 10 as in the embodiment of FIG. 1, Each of the connection patterns 16 extends in the ring pattern 22 and the connection pattern 16 extends in the ring pattern 22 and passes through the region where the second pad 12 in the zigzag shape is opened And contacts the lines 14 disposed at one end of the row.

4 may be formed similarly to the embodiment of FIG. 2 in the case where the lines 14_1 and 14_2 are formed at both ends of the column as in the embodiment of FIG. 2, have.

The first pads 10 forming the same row can be divided into a first group and a second group based on a specific position of the row, for example, a center. The number of the first lines corresponding to the first group may be formed on one end of the column, that is, the second column, and the number of the second lines corresponding to the second group may be formed on the other end of the column. Each of the first pads 10 included in the first group is electrically connected to the first pad 10 via the connection pattern 16 extending in the ring pattern 22 via the region where the zigzag- One-to-one contact with the first lines arranged once on the upper side. Each of the first pads 10 included in the second group is connected to the second pad 12 via the connection pattern 16 extending in the ring pattern 22 and the second pad 12 in the zigzag shape is opened One-to-one contact can be established with the second lines arranged at the other end, that is, the lower side.

In addition, the embodiment of FIG. 4 may be modified as shown in FIG.

The embodiment of FIG. 5 differs from the embodiment of FIG. 4 in that the second pads 12 of adjacent rows have a symmetrical shape with respect to each other, whereby the connecting pattern 16 has a deformed shape.

Referring to FIG. 5, the first pads 10 of each row and the corresponding number of lines 14 are formed at one end of the row of the second pad 12.

The first pad 10 may include an inner isolation pattern 20 and an outer ring pattern 22 spaced from each other.

A connection pattern 16 is formed in each ring pattern 22 of the first pads 10 and a connection pattern 16 is formed in a zigzag shape at each position of the ring pattern 22, One-to-one contact with the lines 14 disposed at one end of the row via the open region.

Here, the connection pattern 16 extending in the ring pattern 22 of the first pad 10 of the adjacent row extends in the direction facing each other. The ring pattern 22 of the first pad 10 in the row closest to the lines 14 can be formed to share a connection pattern 16c extending to the lines 14. [

According to the embodiment of FIG. 5, the number of connection patterns 16 can be reduced in comparison with FIG. 4, thereby preventing the area of the touch pad from increasing.

5, in order to prevent the area of the touch pad from increasing when the row length of the first pad 10 is increased, the connection of the first pad 10 with respect to the center of the row of the first pads 10 The pattern 16 may be dividedly formed, and a detailed description thereof will be omitted.

As shown in FIGS. 4 and 5, the first pad 10 is divided into the isolation pattern 22 and the ring pattern 22 for improving the sensing sensitivity. The isolation pattern 22 is in a floating state.

The first pad 10 as shown in Figs. 4 and 5 can improve the sensing sensitivity and the ability to sense water.

When the first pad 10 is formed of a single pad, if water exists on the first pad 10, the first pad 10 may be formed with a long electrical path through the water. In this case, a touch recognition error may occur.

4 and 5, when water is present on the first pad 10, a long electrical path formed by the water in the first pad 10 is formed on the isolation pattern 22 . Accurate sensing of the touch can thus be realized.

Meanwhile, the present invention can be modified as shown in FIG.

The first pad 10 of FIG. 6 is divided into the first region 30 and the second region 32, and the first region 30 and the second region 32 are connected together.

An insertion pattern 34 extending from the second pad 12 is disposed between the spaces where the first region 30 and the second region 32 are separated.

Here, the first region 30 and the second region 32 of the first pad 10 have the same area and may have a shape symmetrical to each other.

As shown in FIG. 6, since the first pad 10 is implemented, it is possible to detect a change in finer mutual capacitance and improve the sensing accuracy

10: first pad 12: second pad
14: Line 16: Connection pattern
20: Isolation 22: Ring pattern
30: first region 32: second region

Claims (12)

First pads arranged to form a row; And
And a zigzag shaped second pad passing through a spaced space between the first pads,
Wherein the first pads and the second pads are formed in the same layer. The method according to claim 1,
Wherein a driving signal is applied to one of the first pads and the second pad and a sensing signal is output to the other. 3. The method of claim 2,
Wherein the driving signal is one of a pulse type signal and a constant voltage type signal. The method according to claim 1,
Wherein a number of lines corresponding to the first pads are formed at one end of the column, and each of the first pads includes lines arranged at one end of the column via the open region of the zigzag shape of the second pad, The touch panel further comprising a connection pattern extending to form a one-to-one contact. The method according to claim 1,
The first pads are divided into a first group and a second group based on a specific position of the column, a first number of first lines corresponding to the first group is formed at one end of the column, Wherein the first pads and the first lines of the first group form a one-to-one contact through the first connection patterns, and the first pads and the first lines of the first group form a one- Wherein the second lines form a one-to-one contact through the second connection patterns, and the first and second connection patterns are formed to pass through an area where the second pad of the zigzag shape is opened. The method according to claim 1,
The second pads of the row adjacent to each other are formed to have a symmetrical shape with each other,
Wherein a number of lines corresponding to the first pads in each column are formed at one end of the column and lines arranged at one end of the column via the open region of the zigzag shape and the first pads Further comprising a connection pattern forming a one-to-one contact, wherein the first pads farthest from the lines among the first pads of the column adjacent to each other share the connection pattern. The method according to claim 1,
Wherein each said first pad comprises an outer ring pattern and an internally spaced isolation pattern. 8. The method of claim 7,
Wherein the isolation pattern has a polygonal surface. 9. The method of claim 8,
Wherein the ring pattern has a polygonal ring shape corresponding to the isolation pattern. The method according to claim 1,
Wherein each of the first pads has a first region and a second region, the first region and the second region being connected to each other,
And an insertion pattern extending from the second pad is disposed in a space between the first area and the second area. 11. The method of claim 10,
Wherein the first area and the second area have the same area. 11. The method of claim 10,
Wherein the first region and the second region have symmetrical shapes.

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