KR100659047B1 - Electro-Luminescence device - Google Patents

Abstract

The electroluminescent device according to the present invention includes a rear electrode layer, an interlayer insulating layer, a fluorescent layer, a front electrode layer and a front insulating layer. The rear electrode layer is formed of electrode lines parallel to each other. An interlayer insulating layer is formed on the front side of the rear electrode layer. The fluorescent layer is formed on the front surface of the interlayer insulating layer to seal the fluorescent material. The front electrode layer is formed of Inconel as a transparent alloy on the front side of the fluorescent layer and is arranged orthogonal to the electrode lines of the back electrode layer. The transparent front insulating layer is formed on the front surface of the front electrode layer.

Description

Electroluminescent device {Electro-Luminescence device}

1 is a side cross-sectional view showing a conventional electroluminescent device.

2 is a cross-sectional side view illustrating an EL device according to a first embodiment of the present invention.

3 is a cross-sectional side view illustrating an EL device according to a second exemplary embodiment of the present invention.

The present invention relates to an electroluminescent device, and more particularly to an electroluminescent device in which the material of each layer is improved.

1 shows a conventional electroluminescent element 1. Referring to FIG. 1, the conventional EL device includes a rear electrode layer 11, an interlayer insulating layer 12, a fluorescent layer 13, a front electrode layer 14, and a front insulating layer 15.

The rear electrode layer 11 is formed of electrode lines parallel to each other, and these electrode lines are formed of an opaque alloy material. The interlayer insulating layer 12 is formed of an opaque insulating material on the front surface of the rear electrode layer 11. The fluorescent layer 13 is formed on the front surface of the interlayer insulating layer 12 to seal the fluorescent material. The front electrode layer 14 is arranged orthogonal to the electrode lines of the rear electrode layer 11 on the front surface of the fluorescent layer 13, and the electrode lines are formed of ITO (Indium-Tin-Oxide) material. The front insulating layer 15 is formed of a transparent insulating material on the front surface of the front electrode layer 14.

The conventional EL device 1 has the following problems as the front electrode layer 14 is formed of an ITO material.

1. When driving by applying an alternating voltage to both the rear electrode layer 11 and the front electrode layer 14, since the resistance value of the front electrode layer 14 is relatively high, the electromagnetic interference wave emitted to the front, that is, the viewer side (Electro-) The shielding performance of the magnetic interference wave is relatively low.

2. When the front electrode layer 14 is grounded and an AC voltage is applied only to the rear electrode layer 11 to reduce the electromagnetic interference wave to the front, the strength of the front electrode layer 14 with respect to the current is relatively low. In (14), a cracking phenomenon occurs. As such, when the front electrode layer 14 is cracked, it may have a fatal effect on image quality.

3. When the rear electrode layer 11 is grounded and an AC voltage is applied only to the front electrode layer 14 to prevent overcurrent to the front electrode layer 14, the resistance value of the front electrode layer 14 is relatively high. In other words, the shielding performance of electromagnetic interference waves emitted toward the viewer side is relatively low.

 SUMMARY OF THE INVENTION An object of the present invention is to provide an electroluminescent device capable of increasing the electromagnetic shielding performance of the front electrode layer and the strength against the current.

The electroluminescent device of the present invention for achieving the above object includes a rear electrode layer, an interlayer insulating layer, a fluorescent layer, a front electrode layer and a front insulating layer. The rear electrode layer is formed of electrode lines parallel to each other. The interlayer insulating layer is formed on the front surface of the rear electrode layer. The fluorescent layer is formed on the front surface of the interlayer insulating layer to seal the fluorescent material. The front electrode layer is formed of Inconel as a transparent alloy on the front surface of the fluorescent layer and is arranged orthogonal to the electrode lines of the back electrode layer. The transparent front insulating layer is formed on the front surface of the front electrode layer.

According to the electroluminescent device of the present invention, the front electrode layer is formed of Inconel as a transparent alloy has the following effects.

1. When driving by applying an alternating voltage to both the rear electrode layer and the front electrode layer, since the resistance value of Inconel as the front electrode layer is relatively low, the shielding performance of the electromagnetic interference wave emitted to the front, that is, the viewer side is relatively low. Rises to.

2. When the front electrode layer is grounded and an AC voltage is applied only to the rear electrode layer in order to further reduce the electromagnetic interference wave toward the front side, the strength of the front electrode layer becomes relatively high so that the crack in the front electrode layer becomes relatively high. The phenomenon can be prevented. Accordingly, the image quality, reliability, and lifespan of the electroluminescent device can be improved.                     

3. When the rear electrode layer is grounded and an AC voltage is applied only to the front electrode layer in order to prevent overcurrent to the front electrode layer, the resistance value of Inconel as the front electrode layer is relatively low. The shielding performance of electromagnetic interference waves emitted to the side is relatively high.

Preferably, the rear electrode layer is formed of a transparent alloy and the interlayer insulating layer is formed of a transparent insulating material. Accordingly, the rear electrode layer acts as a reflector to increase the brightness toward the front side, and the electromagnetic shielding performance of the rear electrode layer and the strength with respect to the current may be increased.

Hereinafter, preferred embodiments according to the present invention will be described in detail.

2 shows an electroluminescent element 2 according to a first embodiment of the invention. Referring to FIG. 2, the electroluminescent device 2 according to the present invention includes a back electrode layer 21, an interlayer insulating layer 22, a fluorescent layer 23, a front electrode layer 24, and a front insulating layer 25. do.

The rear electrode layer 21 is formed of electrode lines parallel to each other, and these electrode lines are formed of an opaque alloy material. The interlayer insulating layer 22 is formed of an opaque insulating material on the front surface of the rear electrode layer 21. The fluorescent layer 23 is formed on the front surface of the interlayer insulating layer 22 to seal the fluorescent material. The front electrode layer 24 is arranged orthogonal to the electrode lines of the rear electrode layer 21 on the front surface of the fluorescent layer 23, and the electrode lines are formed of Inconel as a transparent alloy material. The front insulating layer 25 is formed of a transparent insulating material on the front surface of the front electrode layer 24.

The electroluminescent device 2 as described above has the following effects as the front electrode layer 24 is formed of a transparent metal material.

1. When driving by applying an alternating voltage to both the rear electrode layer 21 and the front electrode layer 24, since the resistance value of Inconel as the front electrode layer 24 is relatively low, the electrons emitted to the front, that is, the viewer side The shielding performance of the obstacle wave is relatively high.

2. When the front electrode layer 24 is grounded and an AC voltage is applied only to the rear electrode layer 21 to reduce the electromagnetic interference wave toward the front side, the strength with respect to the current of the front electrode layer 24 becomes relatively high and the front side Cracking in the electrode layer 24 can be prevented. Accordingly, the image quality, reliability, and lifespan of the electroluminescent element 2 can be improved.

3. When the rear electrode layer 21 is grounded and an AC voltage is applied only to the front electrode layer 24 to prevent overcurrent to the front electrode layer 24, the resistance value of Inconel as the front electrode layer 24 is driven. Since this is relatively low, the shielding performance of electromagnetic interference waves emitted to the front, that is, the viewer side, is relatively high.

3 shows an electroluminescent element 3 according to a second embodiment of the invention. Referring to FIG. 3, the electroluminescent device 3 according to the present invention includes a rear electrode layer 31, an interlayer insulating layer 32, a fluorescent layer 33, a front electrode layer 34, and a front insulating layer 35. do.

The rear electrode layer 31 is formed of electrode lines parallel to each other, and these electrode lines are formed of a transparent alloy material, for example, Inconel. The interlayer insulating layer 32 is formed of a transparent insulating material on the front surface of the rear electrode layer 31. The fluorescent layer 33 is formed on the front surface of the interlayer insulating layer 32 to seal the fluorescent material. The front electrode layer 34 is arranged orthogonal to the electrode lines of the rear electrode layer 31 on the front surface of the fluorescent layer 33, and these electrode lines are formed of Inconel as a transparent alloy material. The front insulating layer 35 is formed of a transparent insulating material on the front surface of the front electrode layer 34.

The electroluminescent device 2 as described above has the effects described above as the front electrode layer 24 is formed by Inconel as a transparent metal material. In addition, the rear electrode layer 31 may serve as a reflector to increase the brightness of the front side, that is, the viewer side, and increase the electromagnetic shielding performance of the rear electrode layer 31 and the strength of the current.

As described above, according to the EL device according to the present invention, as the front electrode layer is formed of Inconel as a transparent alloy has the following effects.

1. When AC voltage is applied to both the rear electrode layer and the front electrode layer, the resistance value of Inconel as the front electrode layer is relatively low, so that the shielding performance of the electromagnetic interference wave emitted to the front, that is, the viewer side, is relatively high. .

2. When the front electrode layer is grounded and the AC voltage is applied only to the rear electrode layer to reduce the electromagnetic interference wave to the front side, the strength of the front electrode layer becomes relatively high, so that the phenomenon of cracking in the front electrode layer can be prevented. Can be. Accordingly, the image quality, reliability, and lifespan of the EL device may be improved.

3. When the rear electrode layer is grounded and AC voltage is applied only to the front electrode layer in order to prevent overcurrent to the front electrode layer, the resistance value of Inconel as the front electrode layer is relatively low. The shielding performance of electromagnetic interference waves is relatively high.

The present invention is not limited to the above embodiments, but may be modified and improved by those skilled in the art within the spirit and scope of the invention as defined in the claims.

Claims (2)

A rear electrode layer formed of parallel electrode lines, an interlayer insulating layer formed on a front surface of the rear electrode layer, a fluorescent layer formed on a front surface of the interlayer insulating layer and encapsulating a fluorescent material, and orthogonal to electrode lines of the rear electrode layer on a front surface of the fluorescent layer. In the electroluminescent device comprising a front electrode layer arranged so that, and a transparent front insulating layer formed on the front surface of the front electrode layer, An electroluminescent device in which the front electrode layer is formed of Inconel as a transparent alloy. The method of claim 1, And the rear electrode layer is formed of a transparent alloy, and the interlayer insulating layer is formed of a transparent insulating material.

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