KR100382501B1 - Structure for bonding COF in Organic Electro Luminescence Display - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a COF coupling structure of an organic EL display device, and minimizes the size and fold of a chip on film or chip on fpc (COF) coupled to an organic EL panel for electrical signal transmission. The distance difference between the data line and the data line is minimized to minimize the resistance between each line.

To this end, the present invention provides an organic EL display device comprising an organic EL panel for outputting an image and a COF (Chip On FPC) coupled to the organic EL panel to transmit an external electrical signal inside the organic EL panel. The COF is stacked on the back of the organic EL panel and the pads formed in the U-shape at the three corner portions thereof are bonded to each other such that the pads are electrically connected to the pads at the corresponding corner portions of the organic EL panel. Provide the COF coupling structure of the device.

Description

Structure for bonding COF in Organic Electro Luminescence Display

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an organic EL display device, and more particularly, to a COF coupling structure of an organic EL display device for effectively coupling a chip on film or chip on FPC (COF) for electrical signal transmission to an organic EL panel.

As is well known, as the size of the display device has increased in recent years, the demand for a flat display device having less space occupancy has increased. As one of such flat display devices, an organic EL display device has attracted attention.

The organic EL device injects electrons and holes from the electron injection electrode and the hole injection electrode into the light emitting unit, respectively, so that the excitons generated by combining the injected electrons and holes fall from the excited state to the ground state. It is a device that emits light when it has a merit that it can be driven at a low voltage of about 3 to 20V, and research is being actively conducted.

In addition, the organic EL element has excellent characteristics such as wide viewing angle, high speed response and high contrast, so it can be used as a pixel of a graphic display, a pixel of a television image display or a surface light source. It is thin, light, and has good color, making it suitable for next-generation flat panel displays.

The organic EL display device using such an organic EL element is configured to implement a desired image by an electrical signal input from the outside, similar to a conventional image display device. In particular, the organic EL display device used in a portable wireless communication terminal is light and thin. In accordance with the trend of extinguishing, compaction is realized by bonding a chip on film (COF) including a driving IC to an organic EL panel that outputs an image.

1 and 2 illustrate a coupling relationship between the organic EL panel and the COF as described above. FIG. 1 illustrates a structure in which the COF 10 is joined in a straight line through one side of the organic EL panel 1. 2 shows a state in which the COF 20 is bonded in an 'L' shape to two portions of the organic EL panel 1.

However, when the size of the organic EL panel is small or the number of pixels to be driven is small, the number of pads to be bonded is small, so that the organic EL panel 1 and the COFs 10 and 20 are linear or Bonding in an 'L' shape was sufficient, but as the size of the panel grew and the number of pixels to drive increased, the number of pads to be bonded increased.

Therefore, in this case, as illustrated in FIG. 3, the COF 30 is bonded to the pads 1a, 1b, and 1c at the three corner portions of the panel outside the organic EL panel 1 in a 'c' shape. Take the way.

However, the conventional organic EL panel and the COF simple coupling structure as described above do not utilize the internal space of the organic EL panel, and thus there is a problem of wasting FPC (Flexible Printed Circuit) as much as the internal space.

In addition, in order to install the combined organic EL panel and the COF in the narrow interior of the package to be installed, the COF must be folded and used, thereby increasing the thickness of the organic EL display device itself and occurring inside the circuit of the folded portion. Parasitic capacitance or cracking may cause malfunction or breakage.

In addition, since the COF is coupled while surrounding the outside of the organic EL panel, the distance difference between each scan line and the data line on the COF increases, thereby reducing the reliability of the circuit due to the resistance difference between the COF lines. There was also a problem.

Accordingly, the present invention has been made to solve the above problems, and improves the coupling structure between the organic EL panel and the COF constituting the organic EL display device to minimize the size and the folded portion of the COF, and the scan line on the COF It is an object of the present invention to provide a COF coupling structure of an organic EL display device which minimizes the distance difference between data lines to minimize resistance between each line.

1 is a plan view schematically showing one form of a COF coupling structure of a conventional organic EL display device

2 is a plan view schematically showing another form of the COF coupling structure of a conventional organic EL display device;

3 is a plan view schematically showing another embodiment of the COF coupling structure of a conventional organic EL display device;

3A shows a state in which an organic EL panel and a COF are separated,

3B is a view showing a state in which an organic EL panel and a COF are combined;

4 is a plan view schematically showing a first embodiment of a COF coupling structure of an organic EL display device according to the present invention;

4A shows a state before bonding in which an organic EL panel and a COF are separated,

4B is a view showing a state in which an organic EL panel and a COF are combined;

Explanation of Reference Symbols in Major Parts of Drawings

1-organic EL panel 1a, 1b, 1c-pad

40-COF 41-Drive IC

42-SMD Resistor 43a, 43b, 43c-Pad

In order to achieve the above object, the present invention provides an organic EL display comprising an organic EL panel for outputting an image and a COF (Chip On FPC) coupled to the organic EL panel to transmit an external electrical signal to the organic EL panel. In the apparatus, the COF is superimposed on the rear surface of the organic EL panel while a pad formed in a U shape at three corners thereof is bonded so as to be electrically connected to the pads of the corresponding corner portions of the organic EL panel. A COF coupling structure of an organic EL display device is provided.

Hereinafter, a preferred embodiment of the COF coupling structure of the organic EL display device according to the present invention will be described in detail with reference to the accompanying drawings.

For reference, the organic EL panel shown in the drawings is shown so that the rear portion thereof is visible.

4 illustrates a COF coupling structure of an organic EL display device according to an exemplary embodiment of the present invention, wherein an electron injection electrode, a hole injection electrode, and an emission layer of an organic material are used for outputting an image in the organic EL panel 1. The back and the like constitute a myriad of pixels, and the three corners inside the organic EL panel 1 have pads 1a, 1b, and 1c for transmitting electrical signals from outside to the scan lines and data lines of each pixel. ) Are formed.

The COF 40 electrically coupled to the organic EL panel 1 is formed in a substantially quadrangular panel shape to have a shape and size corresponding to that of the organic EL panel 1.

Here, the COF 40 includes a driving IC 41 and an SMD resistor 42 receiving external protocol signals thereon, and pads 43a at three corners to form a 'c' shape when viewed from above. , 43b, 43c are formed, and these pads 43a, 43b, 43c are joined to be electrically connected to corresponding pads 1a, 1b, 1c at each corner portion of the organic EL panel 1.

The organic EL display device configured as described above has pads 1a, 1b, and 1c formed at respective corner portions of the organic EL panel 1, while being superimposed so that the COF 40 almost fits on the rear surface of the organic EL panel 1. The pads 43a, 43b, 43c formed at each corner of the COF 40 have a structure in which they are bonded to each other. At this time, the bonding between the pads of the organic EL panel 1 and the COF 40 is made by a conductive bonding material such as ACF (Activated Carbon Fiber) in which conductive balls are blended.

That is, when the organic EL display device is viewed in plan view, the COF 40 has a structure in which the organic EL panel 1 is bonded at a position not to deviate from the organic EL panel 1.

Therefore, the size of the COF 40 is almost equivalent to the size of the organic EL panel 1, which is compared with the conventional coupling structure in which the COF 40 is bonded to the outside of the organic EL panel 1. It is easy to see that the size of 40) can be significantly reduced.

In addition, since the COF 40 is directly coupled on the rear surface of the organic EL panel 1, the folded portion of the COF 40 can be minimized when mounting the package to be installed.

On the other hand, in the above-described embodiment, the pads are formed in the three corner portions of the panel and the COF because the number of pixels inside the organic EL panel 1 is large. However, as shown in Figs. 1 and 2, one pad of the organic EL panel is shown. Of course, the same may be applied to the case formed in the corner or two corners.

As described above, according to the present invention, since the COF is bonded while being superimposed on the back of the organic EL panel, the size of the COF can be reduced to almost the same size as the organic EL panel, thereby preventing the waste of FPC, as well as the COF. Since the distance between each line of the phase can be set to the minimum, the impedance matching is easy and the effect of the magnetic field generated between the lines can be minimized, thereby improving the product reliability.

In addition, since the size and the folded portion of the COF can be minimized, the size of the organic EL display device can be reduced, so that it can be easily installed in a narrow space, and the size of the package to be installed can be reduced.

Claims (2)

An organic EL display device comprising an organic EL panel for outputting an image and a COF (Chip On FPC) coupled to the organic EL panel to transmit an external electrical signal to the organic EL panel. The COF is superimposed on a rear surface of the organic EL panel, and pads formed at corners thereof are bonded to be electrically connected to pads at corresponding corners of the organic EL panel. Coupling structure. The organic EL display device according to claim 1, wherein the organic EL panel and the COF have pads formed at three corner portions of the organic EL panel and the COF so that the pads are bonded and connected by a conductive adhesive. COF bonding structure.