KR100516966B1 - Machine concept for the OELD Panel Aging Process - Google Patents

Abstract

The present invention relates to an aging equipment essential for stabilizing a device after fabricating an organic light emitting display device.

The aging equipment for the organic light emitting display device of the present invention has a technical feature in that it consists of a scan pad part, a data pad part, a pad group part, and a probe pin contact point.

Therefore, the aging equipment for the organic light emitting display device according to the present invention is effective in cost reduction and simple in construction, because aging is performed without a drive module, unlike the aging method of the conventional drive module bonding type.

Description

Aging equipment for organic electroluminescent display {Machine concept for the OELD Panel Aging Process}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to aging equipment for organic electroluminescent display (OELD), and more particularly, to an aging process of a device essential for stabilization of a device after fabrication of an OELD.

With the development of information and communication technology, the demand for electronic displays is increasing according to the needs of diversified information society, and the required displays are also diversifying. In order to satisfy the demands of the diversified information society, electronic display devices are required to have characteristics such as high definition, large size, low price, high performance, thinness, and miniaturization. To this end, existing cathode ray tubes In addition to Ray Tube (CRT), new flat panel display (FPD) devices are being developed.

One such flat panel display is an electroluminescent display. ELDs are classified into organic electroluminescent displays and inorganic electroluminescent displays according to the type of material used as the light emitting layer.

An inorganic electroluminescent display device emits light by collision of electrons accelerated by a high electric field, and according to the thickness and driving method of the thin film, an AC thin film electroluminescence display device, an AC thick film electroluminescence display device, and a DC thick film electroluminescence And display elements.

The organic light emitting display device emits light by the flow of electric current, and is classified into a low molecular weight organic light emitting display device and a high molecular weight organic light emitting display device according to the classification of organic materials as light emitting layers.

1 is a schematic diagram illustrating a conventional organic light emitting display device. Referring to FIG. 1, the organic light emitting display device forms a transparent anode layer 12 on a transparent substrate 11 by wiring, and uses a negative type organic photosensitive film for cathode patterning. The partition 13 of the liver is formed. Thereafter, a hole injection layer 14, a hole transport layer 15, an organic emitting layer 16, an electron transport layer 17 and a cathode layer, 18) is sequentially stacked, and the cathode and cathode rays are short-circuited by the partition walls formed in advance, and a flow of current selectively applied through the anode and cathode rays causes the organic electroluminescent layer 16 to emit light. It is a principle. In this case, the hole injection layer 14, the hole transport layer 15, and the electron transport layer 17 have an auxiliary function of increasing the luminous efficiency of the organic light emitting display device.

Securing device stability when manufacturing such a device and bringing it to the product is the last step of device manufacturing and its importance is very important.

In order to stabilize the organic light emitting device, the prior art uses an aging method in which the panel unit and the driving module are bonded to operate under actual driving conditions.

However, in this case, if a defect occurs during the aging process, not only the panel but also the driving module is generated as a defect, and the cost is very large and at the same time, the process becomes very complicated.

Accordingly, the present invention is to solve the above disadvantages and problems of the prior art, devised a peripheral circuit for grouping each of the data pad unit and the scan pad unit in the conventional pad structure in the manufacturing of the organic EL device. It is an object of the present invention to propose a method for implementing an aging process without connecting a separate drive module by configuring a system for applying a constant voltage pulse power using a probe pin to each pad group.

The object of the present invention is achieved by an aging device for an organic light emitting display device comprising a scan pad portion, a data pad portion, a pad group portion, and a probe pin contact point.

2 is a schematic diagram of forming a driving condition without a driving module according to the present invention.

As shown in the drawing, an organic electroluminescent device, a scan pad unit 21 provided on one side of the organic electroluminescent element, a data pad unit 23 provided on the other side of the organic electroluminescent element, the scan pad unit and Located on the other side of the data pad unit, the pad group unit 22 is configured to group the lines of the scan pad unit and the data pad unit, respectively, and a plurality of probe pin contact points inside the pad group unit.

In the aging process of the organic electroluminescent device, forming a driving condition such as driving a module by applying pad grouping and applying a constant voltage pulse power to the panel to drive the panel without connecting the driving module. Basically.

3 is a configuration diagram of the aging equipment according to the present invention.

The method of aging an organic light emitting display device may include manufacturing an organic light emitting diode, arranging a scan pad portion on one side of the organic light emitting diode, and providing the organic electroluminescent device on another side of the organic light emitting diode and orthogonal to the scan pad portion. Arranging a data pad unit to form an ITO, designing an extension line of ITO in the scan pad unit and the data pad unit, grouping the designed lines, forming a second auxiliary electrode on the grouped lines, and a signal The generator consists of applying pulse power to the panel using probe pins.

Connect the anode electrode to the scan pad part and connect the cathode electrode to the data pad part to apply the power applied from the signal generator to the panel.

To do this, simply design an extension line of indium tin oxide (ITO) of the pad, group them together, and form a secondary auxiliary electrode thereon. Constant voltage pulse power applied from the signal generator is applied to the panel using the probe pin.

The signal generator must be able to adjust the on time, off time, and voltage. By adjusting these three factors, the panel can be aged under the conditions closest to the actual driving conditions.

Therefore, the aging device for the organic light emitting display device of the present invention is driven by the simplest structure by applying a simple pad grouping and the application of a constant voltage type pulse power supply without a complicated drive module connection in the aging process essential for stabilization of the organic light emitting device. The aging process of the panel is possible in the same way as the driving by the module, which can reduce the cost and simplify the process.

1 is a schematic diagram illustrating a conventional organic light emitting display device.

2 is a schematic diagram of forming a driving condition without a driving module according to the present invention.

3 is a configuration diagram of the aging equipment according to the present invention.

<Description of Reference Numbers for Main Parts of Drawings>

11: transparent substrate 12: transparent conductive electrode layer

13: partition 14: hole injection layer

15: hole import layer 16: organic electroluminescent layer

17: electron transport layer 18: cathode layer

21: Scan Pad Part 22: Pad Groups

23: Data Pad Part 24: Probe Pin Contact Point

Claims (3)

An aging apparatus for an organic electroluminescent display, Organic electroluminescent devices; A scan pad unit 21 provided on one side of the organic electroluminescent element; A data pad part 23 provided on the other side of the organic electroluminescent element; A pad group unit 22 for grouping lines of the scan pad unit and the data pad unit respectively; And A plurality of probe pin contact points 24 inside the pad group portion. An aging apparatus for an organic electroluminescent display consisting of. In the aging method of the organic electroluminescent display, Manufacturing an organic electroluminescent device; Disposing a scan pad part on one side and a data pad part on the other side of the organic electroluminescent device; Wiring an extension line of ITO to the scan pad unit and the data pad unit; Grouping the wired lines, respectively; Forming second auxiliary electrodes on the grouped lines, respectively; And Applying pulsed power to the panel using the probe pins at the signal generator Aging method for an organic electroluminescent display, comprising a. The method of claim 2, wherein the signal generator stabilizes the organic light emitting diode by using a pulse power source.