KR20150066860A - Touch sensor integrated type flat panel display - Google Patents

Abstract

The present invention relates to a touch sensor integrated type flat display device which may recognize a touch of a user. The touch sensor integrated type flat panel display device of the present invention comprises: a flat display panel having constituent elements and a driving IC driving the constituent elements; and a touch sensor layer attached at the upper part of the flat display panel and having constituent elements for touch sensing and touch pads arranged at both sides of the driving IC.

Description

TECHNICAL FIELD [0001] The present invention relates to a touch sensor integrated type flat panel display,

The present invention relates to a touch sensor integrated flat panel display capable of recognizing a user's touch. In particular, the present invention relates to a touch sensor integrated flat panel display device having a structure capable of eliminating a contact failure of a pad portion for a touch sensor due to a spatial limitation.

2. Description of the Related Art In recent years, various input devices such as a keyboard, a mouse, a trackball, a joystick, and a digitizer have been used to configure an interface between a user and a home appliance or various information communication devices. However, the use of the above-described input device has a problem in that it requires the user to learn how to use the device and causes inconvenience such as occupying a space. Therefore, there is a growing demand for an input device that is convenient and simple and can reduce malfunctions. In response to such demands, a touch sensor has been proposed in which a user directly touches the screen with a finger or a pen to input information.

The touch sensor is simple, has little malfunction, can be input without using a separate input device, and is also applicable to various display devices because of convenience that the user can quickly and easily operate the contents displayed on the screen have.

The touch sensor can be divided into an add-on type, a top plate sharing type (on-cell type) and a touch sensor integrated type (in-cell type) according to the structure. In the top plate attaching type, a touch panel is attached to an upper plate of a display device after separately manufacturing a display device and a touch panel formed with a touch sensor. In the top plate sharing type, a touch sensor is directly formed on the upper glass substrate surface of the display device to share the substrate. The touch sensor integrated type is a method in which the touch driving electrode and / or the touch sensing electrode of the touch sensor are commonly used as the common electrode of the display device.

In the top-panel mounting type, a completed touch panel is mounted on a display device and is mounted thereon, resulting in a thick thickness, and the brightness of the display device becomes dark and visibility deteriorates. On the other hand, in the case of the top plate sharing type, although the thickness of the touch sensor can be reduced compared with the top plate attachment type with a structure in which a separate touch sensor is formed on the top surface of the display device, the driving electrode layer and the sensing electrode layer constituting the touch sensor, There is a problem that the total thickness is increased. On the other hand, in the case of the touch sensor integrated type, since the touch driving electrode and / or the touch sensing electrode of the touch sensor can be commonly used as the common electrode of the display device, Development is underway.

Hereinafter, a touch sensor integrated flat panel display according to the related art will be described with reference to the drawings. For the sake of convenience, the schematic structure of the flat panel display device and the touch sensor layer integrally formed thereon are shown in separate drawings. 1 is a plan view schematically showing respective regions of a conventional flat panel display device. FIG. 2 is a plan view schematically showing areas of a conventional touch sensor integrated flat panel display device in which a touch sensor layer is integrally formed on the surface of the flat panel display device shown in FIG. 1;

Referring to FIG. 1, a conventional flat panel display includes a display panel DP for implementing a display. The display panel DP includes a display area AA, a bezel area BA, and a pad area PA. The display area AA includes components for touch sensing and display. For example, these components may include a gate line GL, a data line DL, and a pixel electrode (not shown).

The bezel area BA collectively refers to an outer part surrounding the display area AA and includes gate extension wirings (GEL) for transmitting and receiving signals to components for display formed in the display area AA, (DEL). The pad area PA is formed on one side of the bezel area BA and connected to wirings formed in the bezel area BA to mount a display IC (Integrated Chip) (DIC) for driving the display device Is provided.

The driving IC DIC is connected by being contact-mounted on the gate pad portion GP which is the end of the gate extension wiring GEL and the data pad portion DP which is the end of the data extension wiring DGL. And may have a shape in which gate pad portions GP are separately disposed on both sides of the data pad portion DP. The gate pad portion GP and the data pad portion DP may be separated from each other or may be formed as one body in some cases.

An FPC pad FD for contacting an FPC (Flexible Printed Circuit, FPC) for connecting external devices and a driving IC (DIC) is further formed outside the driving IC DIC. And is connected to external devices through the FPC pad FD, thereby receiving various data and driving signals.

2, the prior art touch sensor integrated flat panel display device in which the touch sensor layer TF is integrally formed on the flat panel display panel DP shown in FIG. 1 has a flat display panel DP, (Not shown). Like the flat panel display panel DP, the touch sensor layer TF includes a display area AA, a bezel area BA, and a pad area PA. The display area AA includes components for touch sensing. For example, these components include a touch-driving electrode RE and a touch-sensing electrode TE. In some cases, the common electrode of the flat panel display panel DP may include both the functions of the touch driving electrode RE and the touch sensing electrode TE.

The bezel area BA collectively refers to an outer part surrounding the display area AA and includes driving extension lines REL for transmitting and receiving signals to and from components for touch sensing formed in the display area AA, And wiring (TEL).

The pad area PA is formed on one side of the bezel area BA and connected to wirings formed in the bezel area BA to form a touch pad TP for attaching an FPC for a touch sensor for driving the touch sensor . For example, in the space between the pads GP and DP for connection with the driving IC DIC and the display area AA, the touch pads TP are arranged on the upper sides of both sides of the driving IC DIC .

The touch pad TP includes a touch driving pad Rx and a touch sensing pad Tx. The touch driving pad Rx is the end of the drive extension wiring REL and the touch sensing pad Tx is the end of the sensing extension wiring TEL. The touch driving electrode RE and the touch sensing electrode TE are formed in different layers with an insulating film interposed therebetween so as to have a structure that is orthogonal to each other without contacting each other. Therefore, the drive extension wiring REL and the sensing extension wiring TEL are also formed in different layers. However, the touch driving pad Rx and the touch sensing pad Tx must be formed on the same layer. For example, the touch driving electrode RE is formed on a lower layer than the pad portion, and the driving extension wiring REL must be electrically connected to the touch driving pad Rx through the contact hole. To this end, contact holes CH for connecting the drive extension wiring REL and the touch driving pad Rx may be disposed between the touch pads TP.

The FPC for giving a signal to the drive IC (DIC) for display contacts the FPC pad FD while the FPC for the touch sensor contacts the touch pad TP. FIG. 3 is a cross-sectional view cut along a perforated line I-I 'of FIG. 2, and is a cross-sectional view illustrating a structure in which a touch sensor FPC is connected at a touch sensing pad portion.

Referring to FIG. 3, each pad FPAD formed on the FPC TF for a touch sensor is connected to the touch driving pad Rx and the touch sensing pad Tx in a one-to-one correspondence. Particularly, the touch driving pad Rx and the touch sensing pad Tx are disposed on both sides of the contact hole CH, and at the center thereof, a connection point CH formed in the contact hole CH for connecting the drive extension wiring REL and the touch driving pad Rx, Phosphorus points Ag can be formed.

Generally, these silver spots (Ag) should be lowered in contact resistance, so that it is preferable to form them with a considerably large and large size. Accordingly, the center portion can be considerably thicker than the both side portions. Due to this thickness, the touch driving pad Rx and the touch sensing pad Tx formed on the touch pads TP on both side portions are formed in the FPC TF for the touch sensor Normal contact with each pad (FPAD) may not be achieved.

In this manner, when the touch sensor is formed integrally with the flat panel display panel, contact failure of the pad portion may occur due to spatial limitations. This can cause problems in the operation of the final product. Therefore, there is a need for a structural improvement that can ensure normal contact of the pad portion.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a touch sensor integrated type flat panel display device having a new structure which solves the problems of the related art. It is another object of the present invention to provide a touch sensor integrated type flat panel display device having a pad portion and a contact hole in two rows in a narrow bezel region to overcome a spatial limitation and having a through hole for a cell lighting test.

According to an aspect of the present invention, there is provided a touch sensor integrated flat panel display comprising: a flat panel display panel including components for implementing a display and a driving IC for driving the components; And a touch sensor layer attached to the upper portion of the flat panel display panel and including touch sensing components and touch pads disposed on both sides of the driving IC.

Wherein the flat panel display panel includes a display region, a bezel region surrounding the periphery of the display region, and a pad region in which the driver IC is disposed in the bezel region; The touch sensor layer includes a display portion corresponding to the display region, a bezel portion corresponding to the bezel region, and a pad portion corresponding to the pad region.

A gate wiring, a data wiring, and a pixel electrode are disposed in the display region; Wherein the bezel region is provided with a gate extension wiring extending from the gate wiring and a data extension wiring extending from the data wiring; And a gate pad connected to the gate extension wiring and a data pad connected to the data extension wiring are disposed in the pad region.

Wherein the display unit is provided with a touch sensing electrode and a touch driving electrode; A sensing extension line extending from the touch sensing electrode and a drive extension line extending from the touch driving electrode are disposed in the bezel portion; The pad unit may include a touch pad including a touch sensing pad connected to the sensing extension line and a touch driving pad connected to the driving extension line.

The pad portion may further include a contact hole for connecting the sensing extension wiring to the touch sensing pad and a contact hole for connecting the driving extension wiring to the touch driving pad.

And a contact hole disposed on at least one of an upper side and a lower side of the touch pad.

And a through-hole formed on a space between the touch pads and exposing a pad for a cell lighting test of the flat panel display panel.

The touch sensor integrated flat panel display according to the present invention has a novel structure in which a touch sensing pad and a touch driving pad are disposed on a touch sensor layer formed integrally with both sides of a driving IC of a flat panel display panel. In addition, the touch pad has a new structure in which a contact hole connecting the drive extension wiring and the touch drive pad arranged on different layers in the touch sensor layer is arranged on the upper side or the lower side of the touch pad. As a result, the problem of contact failure between the touch pad and the pad of the FPC, which may occur due to the height difference between the contact hole and the touch pad, can be fundamentally eliminated. Further, by disposing the driving IC, the touch pad, and the contact hole in the same row, the area occupied by the pad can be further reduced.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view schematically showing respective regions of a conventional flat panel display panel. Fig.
FIG. 2 is a plan view schematically showing respective regions of a conventional touch sensor integrated flat panel display device in which a touch sensor layer is integrally formed on a surface of a flat panel display panel shown in FIG. 1;
FIG. 3 is a cross-sectional view cut along a perforated line I-I 'of FIG. 2, showing a structure in which a FPC for a touch sensor is connected at a touch sensing pad.
4 is a plan view schematically showing each region of a touch sensor integrated flat panel display according to the first embodiment of the present invention.
5 is a plan view schematically showing respective regions of a touch sensor integrated flat panel display according to a second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals throughout the specification denote substantially identical components. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description, a detailed description of known technologies or configurations related to the present invention will be omitted when it is determined that the gist of the present invention may be unnecessarily obscured. In addition, the component names used in the following description may be selected in consideration of easiness of specification, and may be different from the parts names of actual products.

Hereinafter, a first embodiment of the present invention will be described with reference to FIG. 4 is a plan view schematically showing each region of the touch sensor integrated flat panel display according to the first embodiment of the present invention.

Referring to FIG. 4, the touch sensor integrated flat panel display according to the first embodiment of the present invention includes a substrate SUB of a flat panel display panel on which elements for implementing a display are formed, and a touch sensor layer TF ). Here, the touch sensor layer TF may be formed in a film form and may be laminating or cementing. Alternatively, it may be formed by directly depositing on or in the thin film transistor substrate in the form of a thin film rather than a film. For example, in the case of an on-cell type, it can be formed in a film form. In addition, in the case of the touch sensor integrated type (In-Cell type), it can be formed as a thin film. Since the flat panel display panel DP is not different from all the conventional flat panel display panels, detailed description thereof will be omitted.

The touch sensor layer TF includes a display portion AA 'corresponding to the display area AA of the flat panel display panel DP, a bezel portion BA' corresponding to the bezel area BA, And a corresponding pad portion PA '. The display unit AA 'includes components for touch sensing. For example, these components include a touch-driving electrode RE and a touch-sensing electrode TE. In some cases, especially in the case of the in-cell type, the common electrode of the flat panel display panel DP may include both the functions of the touch driving electrode RE and the touch sensing electrode TE.

The display portion AA 'of the touch sensor layer TF may be the same as the display area AA of the flat panel display panel DP or may have a slightly smaller or larger size. The bezel portion BA 'of the touch sensor layer TF may be the same as or slightly smaller or larger than the bezel area BA of the flat panel display panel DP. The pad portion PA 'of the touch sensor layer TF may be the same as or slightly smaller than the pad region PA of the flat panel display panel DP. In the embodiments and drawings of the present invention, the components of the touch sensor layer TF are described as being slightly smaller than the components of the flat panel display panel DP for the sake of convenience.

The touch-driving electrode RE can be arranged in the longitudinal direction of the touch sensor layer TF, that is, parallel to the data line DL of the display device. The touch sensing electrode TE can be arranged in the lateral direction of the touch sensor layer TF, that is, parallel to the gate wiring GL of the display device. The touch driving electrode RE and the touch sensing electrode TE should not be in direct contact with each other, and the capacitance should be formed at the overlapping portion, so that it is preferable that the touch driving electrode RE and the touch sensing electrode TE are formed in different layers with an insulating layer interposed therebetween.

The bezel part BA 'collectively refers to an outer part surrounding the display part AA' and includes driving extension lines REL for transmitting and receiving signals to and from components for touch sensing formed on the display part AA ' Extension wires TEL. For example, the drive extension wires REL extend in the longitudinal direction at the lower end of the touch driving electrode RE. The sensing extension wires TEL are bent in the longitudinal direction of the touch sensor layer TF at one end of the touch sensing electrode TE and extend downward. The sensing extension lines TEL extending from the odd-numbered touch sensing electrodes TE may extend downward from the left-hand bezel area BA of the touch sensor layer TF. On the other hand, the sensing extension wires TEL extending from the even-numbered touch sensing electrodes TE may extend downward from the right-side bezel area BA of the touch sensor layer TF.

The pad portion PA 'corresponds to one side of the bezel portions BA'. For example, on the lower side of the touch sensor layer TF. A touch pad TP for attaching a FPC for a touch sensor for driving the touch sensor is connected to the extension wirings REL and TEL which occupy the bezel portion BA 'in the pad portion PA' . Particularly, in the present invention, the touch pads TP may be disposed on both sides of the pad portions GP and DP for connection with the driving IC DIC.

The touch pad TP includes a touch driving pad Rx and a touch sensing pad Tx. The touch driving pad Rx is the end of the drive extension wiring REL and the touch sensing pad Tx is the end of the sensing extension wiring TEL. The touch driving electrode RE and the touch sensing electrode TE are formed in different layers with an insulating film interposed therebetween so as to have a structure that is orthogonal to each other without contacting each other. Therefore, the drive extension wiring REL and the sensing extension wiring TEL are also formed in different layers. However, the touch driving pad Rx and the touch sensing pad Tx must be formed on the same layer. For example, if the touch driving electrode RE is formed on a lower layer than the pad portion, the driving extension wiring REL must be electrically connected to the touch driving pad Rx through the contact hole. Particularly, in the present invention, contact holes CH for connecting the drive extension wiring REL and the touch driving pad Rx are disposed in the lower region of the touch pad TP.

The layout structure of the touch pad TP and the contact hole CH, which are key features of the present invention, will be described in more detail. The touch sensor layer TF according to the prior art shown in FIG. 2 is formed in the shape of a quadrangle and is bonded or coated on the display panel. On the other hand, the touch sensor layer TF according to the present invention shown in FIG. 4 has a shape in which a lower side which is a pad portion PA 'is formed in a U-shaped shape. In other words, the portion where the driving IC DIC is disposed is excluded, and the touch sensor layer TF is extended on both side regions thereof. A touch pad TP is disposed on the extended side regions.

Further, contact holes CH are arranged in the lower portion of the touch pad TP in the extended both side regions. However, although not shown in the drawing, in some cases, the contact holes CH may be disposed on the upper portion of the touch pad TP. That is, the contact hole CH may be formed in the pad portion PA 'of the space between the touch pad TP and the display portion AA'.

In the integrated flat panel display device having the touch sensor layer TF according to the present invention, the touch pad TP of the touch sensor layer TF and the driving IC DIC of the display panel DP are connected to the pad portion PA 'Lt; / RTI > Therefore, the width of the pad portion PA 'occupied by the touch pad TP and the driving IC DIC may be narrowed. That is, the bezel region can be formed into a Narrow Bezel structure having a narrow width.

Hereinafter, a second embodiment of the present invention will be described with reference to FIG. 5 is a plan view schematically showing each region of a touch sensor integrated flat panel display according to a second embodiment of the present invention.

Referring to FIG. 5, the touch sensor integrated flat panel display according to the second embodiment of the present invention is substantially the same as that according to the first embodiment. Therefore, detailed description of the same portions will be omitted. If there is a difference, a cell lighting through hole TESTH formed between the touch pads TP arranged in the upper area of the driving IC DIC, that is, left and right, can be further formed.

The cell lighting through hole (TESTH) is a through hole for exposing the cell lighting test pad formed on the flat panel display panel. The lighting test can be performed by contacting the jig pin for lighting test with the cell lighting pad exposed through the cell lighting through hole (TESTH).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the present invention should not be limited to the details described in the detailed description, but should be defined by the claims.

AA: display area BA: bezel area
PA: Pad area DP: Display panel
DIC: Driving IC FD: FPC pad
TP: Touchpad CH: Contact hole
Rx: Touch driving pad Tx: Touch sensing pad
REL: Drive extension wiring TEL: Sensing extension wiring
RE: Touch driving electrode TE: Touch sensing electrode
TESTH: Cell lighting through hole TF: Touch sensor layer

Claims (7)

A flat panel display panel having components for implementing a display and a driving IC for driving the components; And
And a touch sensor layer attached to an upper portion of the flat panel display panel, the touch sensor layer including components for touch sensing and touch pads disposed on both sides of the driving IC,
The method according to claim 1,
In the flat panel display panel,
A display region, a bezel region surrounding the periphery of the display region, and a pad region in which the driver IC is disposed in the bezel region;
The touch sensor layer includes:
A display unit corresponding to the display area, a bezel corresponding to the bezel area, and a pad unit corresponding to the pad area.
3. The method of claim 2,
A gate wiring, a data wiring, and a pixel electrode are disposed in the display region;
Wherein the bezel region is provided with a gate extension wiring extending from the gate wiring and a data extension wiring extending from the data wiring;
Wherein the pad region is provided with a gate pad connected to the gate extension wiring and a data pad connected to the data extension wiring.
3. The method of claim 2,
Wherein the display unit is provided with a touch sensing electrode and a touch driving electrode;
A sensing extension line extending from the touch sensing electrode and a drive extension line extending from the touch driving electrode are disposed in the bezel portion;
Wherein the pad unit includes the touch pad including a touch sensing pad connected to the sensing extension wiring and a touch driving pad connected to the driving extension wiring.
5. The method of claim 4,
Wherein the pad portion is further formed with a contact hole for connecting the sensing extension wiring to the touch sensing pad and a contact hole for connecting the driving extension wiring to the touch driving pad.
The method according to claim 1,
Further comprising a contact hole disposed on at least one of an upper side and a lower side of the touch pad.
The method according to claim 1,
Further comprising a through hole formed on the upper side of the driving IC and formed in a space between the touch pads to expose a pad for cell lighting test of the flat panel display panel.

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