KR100624127B1 - Organic electo-luminescent device for having power-cutoff device - Google Patents

Abstract

An organic light emitting device including a power interruption device is disclosed. The power cutoff device of the organic light emitting device detects humidity or moisture in advance and cuts off the power supply provided to the display panel, thereby preventing circuit damage and preventing failure or operation error.

Power supply cutoff, humidity, moisture

Description

Organic electroluminescent device having a power cutoff device {Organic Electo-luminescent Device for having Power-cutoff Device}

1 is a block diagram schematically illustrating a conventional organic light emitting device.

2 is a block diagram illustrating an organic light emitting display device including a power cutoff device according to an exemplary embodiment of the present invention.

3 is a block diagram illustrating internal circuits of a power cutoff device for sensing humidity or moisture according to an exemplary embodiment of the present invention.

The present invention relates to an organic light emitting device, and more particularly, the organic light emitting device is provided with a power cut-off device that detects humidity or moisture in advance and cuts off a power supply provided to a display panel, thereby preventing circuit damage and failure. And an organic light emitting device in which an operation error does not occur.

1 is a block diagram schematically illustrating a conventional organic light emitting device.

Referring to FIG. 1, a conventional organic light emitting device includes an organic light emitting system 100, a flexible printed circuit 110, and an organic light emitting panel 120.

First, the organic light emitting system 100 includes a power supply unit 101 and a control unit 102. The organic light emitting system 100 includes an organic light emitting diode OLED provided in the organic light emitting panel 120. Generate a display operation signal to be displayed.

In particular, the power supply unit 101 of the organic light emitting system 100 receives a power supply voltage from a power supply source and transfers the power supply voltage by branching each power supply circuit. In addition, the power supply voltage generated by the power supply unit 101 is applied to the organic light emitting panel 120 via the flexible substrate 110, and the organic light emitting device OLED mounted on the organic light emitting panel 120. Is delivered to be displayed.

Next, the flexible substrate 110 is disposed between the organic light emitting system 100 and the organic light emitting panel 120, and displays the display operation signal and the power supply voltage generated by the organic light emitting system 100. It is transmitted to the electroluminescent panel 120. In addition, the flexible substrate 110 also has a role of connecting the organic light emitting system 100 and the organic light emitting panel 120 to each other. That is, the flexible substrate 110 includes a first positive electrode connector 111 connected to the first negative electrode connector 103 provided in the organic light emitting system 100, and is provided on the organic light emitting panel 120. A second positive electrode connector 112 is provided to be connected to the second negative electrode connector 121.

In general, the flexible substrate 110 is made of polyimide (PI) material and is a flexible circuit film having flexibility, and is a core component of all electronic products because it is strong in heat resistance, bending resistance, and chemical resistance and is heat resistant. That is, the flexible substrate 110 is widely used in cameras, computers and peripherals, mobile phones, video, audio, camcorders, printers, DVD, TFT LCD, satellite equipment, military equipment and medical equipment. In addition, the flexible substrate 110 is mounted on the upper portion of the flexible substrate 110 in accordance with the recent trend of miniaturization and light weight of electronic products to maximize the high added value and work efficiency.

Here, the display operation signal is a signal generated from the internal circuits of the organic light emitting system 100.

Next, the organic light emitting panel 120 receives the power supply voltage and the display operation signal transmitted through the flexible substrate 110, and the organic light emitting diode OLED provided in the organic light emitting panel 120 is self-luminous. To be.

Problems related to the conventional organic EL device related to the present invention and solved by the present invention are as follows.

The organic light emitting device has a problem that a failure or an operation error occurs due to damage to the organic light emitting system or the organic light emitting panel built in the organic light emitting device due to humidity or moisture as an external environmental factor.

An object of the present invention is to detect the humidity or moisture in advance to cut off the power supply provided to the organic light emitting panel, thereby providing an organic light emitting device that prevents circuit damage and does not cause a failure or operation error.

The present invention for achieving the above object is an organic electroluminescent system comprising a supply power supply for generating a control signal, the supply power; A display panel configured to receive the control signal and the power supply and have a plurality of pixels for displaying a predetermined screen; And a chip mounting film connecting the organic light emitting system and the display panel, and formed on the chip mounting film and blocking the supply power according to a short circuit current generated by humidity or moisture. An organic electroluminescent device is provided.

Hereinafter, described in detail with reference to the accompanying drawings of the present invention.

2 is a block diagram illustrating an organic light emitting display device including a power cutoff device according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the organic light emitting device includes an organic light emitting system 200, a chip mounting film 210, a display panel 220, and a power cutoff device 270.

First, the organic light emitting system 200 includes internal circuits that are mechanically, electrically, or electronically related to each other. The embedded circuits generate a predetermined display operation signal so that the display panel 220 is displayed. In addition, the organic light emitting system 200 controls supply power required to operate the display panel 220.

In particular, the supply power source 201 embedded in the organic light emitting system 200 provides the supply power so that the display panel 220 performs a display operation.

Next, the chip mounting film 210 is disposed between the organic light emitting system 200 and the display panel 220. In addition, the chip mounting film 210 includes a first connector 211 connected to the organic light emitting system 200 and a second connector 212 connected to the display panel 220. In particular, the left and right ends of the first connector 211 include at least one first pattern line 213 and a second pattern line 214 to generate a short circuit current according to whether humidity or moisture is generated.

In addition, the chip mounting film 210 allows the organic light emitting system 200 and the display panel 220 to be connected to each other through a first connector 211 and a second connector 212. The display operation signal and the supply power of the 200 are transmitted to the display panel 220.

Subsequently, the power cut device 270 includes a humidity sensing pattern unit 230, a voltage converter 240, a comparator 250, and a power breaker 260 on the chip mounting film 210. In particular, the humidity sensing pattern unit 230 is a short circuit caused by humidity or moisture, which is an external environmental element, through at least one of the first humidity sensing pattern 231 and the second humidity sensing pattern 232 provided at both ends. Sense current.

In addition, the humidity sensing pattern unit 230 has a narrow separation distance in order to be detected more quickly even if a minute short-circuit current is generated in the organic light emitting device.

That is, the first humidity sensing pattern 231 provided in the humidity sensing pattern unit 230 and the first pattern line 213 of the chip mounting film 210 may be connected to a connector or a semiconductor chip. The constant distance d ₁ is maintained to have a narrower distance than the pin spacing formed.

Similarly, the second humidity sensing pattern 232 of the humidity sensing pattern unit 230 and the second pattern line 214 of the chip mounting film 210 are formed on a connector or a semiconductor chip. Maintain constant spacing d ₂ to have a spacing distance narrower than the pin spacing.

Next, the display panel 220 includes a data line extending in a column direction, a scan line intersecting with the data line and extending in a row direction, and an intersection of the data line and the scan line in a pixel area. It is composed of a plurality of pixels formed.

In addition, the display panel 220 receives the display operation signal and the supply power transmitted from the chip mounting film 210 to allow the plurality of pixels to self-emit.

The pixel area includes an anode electrode and a cathode electrode disposed with the plurality of pixels interposed therebetween. The pixel in the pixel region may include a thin film transistor having a gate electrode and a source electrode connected to the scan line and the data line, and a pixel capacitor and a storage capacitor connected to the drain electrode of the thin film transistor.

3 is a block diagram illustrating internal circuits of a power cutoff device for sensing humidity or moisture according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the power cut-off device 270 includes a humidity sensing pattern unit 230, a voltage converter 240, a comparator 250, and a power breaker 260, and a chip mounting film of the organic light emitting device. Is mounted on.

First, the humidity sensing pattern unit 230 includes a first humidity sensing pattern 231 and a second humidity sensing pattern 232. In addition, the humidity sensing pattern unit 230 is humidity or moisture that is an external environmental element through the first humidity sensing pattern 231 and the second humidity sensing pattern 232 which are wired to at least one end of the chip mounting film. Detects the short circuit current generated by the transfer to the voltage converter 240.

Here, the short-circuit current is a ground current indicating how much water vapor the air contains at room temperature.

Next, the voltage converter 240 is a circuit unit that receives the short-circuit current from the humidity sensing pattern unit 230 and converts the short-circuit current into a sensed voltage, and is mainly formed of OP-AMP. That is, the voltage converter 240 connects a resistor R between the OP-AMP output terminal and the input terminal of the OP-AMP, and grounds a non-inverting (+) input terminal. In addition, the short-circuit current is applied to the non-inverting (+) input terminal and the inverting (-) input terminal. The sense voltage V _o is then expressed as Equation 1].

V _o =-(i _mo x R)

Where i _mo = short-circuit current

For example, if R is 1㏀ and i _mo is 1mA, the sense voltage I _o is -1V. In addition, if the output polarity is +, an inverting amplifier can be added to the output terminal.

Next, the comparator 250 compares the sensed voltage applied from the voltage converter 240 with a reference voltage V _ref having information on relative humidity. Only when the sense voltage exceeds the reference voltage V _ref by the comparison operation, the comparator 250 generates a flag signal flag.

The reference voltage may be supplied by a central processing unit or a processor (not shown) provided in the organic light emitting device. In addition, the reference voltage V _ref is a value obtained by converting the amount of humidity that the organic light emitting device can receive for normal operation into a voltage.

Typically, when the relative humidity is 100%, it refers to the maximum amount of moisture that air can contain at the current temperature. That is, when the relative humidity is 100%, water vapor in the air starts to condense and begins to form water droplets. Therefore, the organic electroluminescent device is guaranteed the product reliability at 90% to 95%, but the product reliability is not guaranteed at higher humidity, it is preferable that the reference value of the relative humidity is 90% to 95%.

Accordingly, the comparator 250 generates the flag signal flag when the sensing voltage is higher than the reference voltage which is a level voltage corresponding to the sensing voltage and the relative humidity of 90% to 95%.

Next, when the power breaker 260 receives the flag signal flag generated from the comparator 250, the power breaker 260 cuts off the supply power applied from the supply power supply unit 201 according to the received flag signal flag. That is, the supply power cutoff controls the switch embedded in the supply power supply unit 201 so that the power received from the adapter is not additionally provided.

According to the above-described embodiment, when the first humidity sensing pattern 231 and the second humidity sensing pattern 232 of the humidity sensing pattern unit 230 receives a short-circuit current exceeding a predetermined reference value the organic field The power supply of the power supply unit 201 is cut off to prevent damage to a circuit of the light emitting device and prevent a failure or an operation error.

In addition, the embodiment of the present invention is limited to the first humidity sensing pattern, the second humidity sensing pattern of the humidity sensing pattern portion, the first pattern line and the second pattern line of the chip mounting film, but is not limited thereto. It can be widely extended to and pattern lines.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

According to the present invention described above, the organic light emitting device detects humidity or moisture in advance and cuts off the power supply provided to the organic light emitting panel, thereby preventing circuit damage and preventing failure or operation error from occurring.

Claims (7)

An organic light emitting system for generating control signals and supply power; A display panel including a plurality of pixels configured to receive the control signal and the power supply and display a predetermined image; A chip mounting film electrically connecting the organic light emitting system and the display panel; And And a power cut-off device formed on the chip mounting film and blocking the supply power according to generation of humidity or moisture. The power cut device of claim 1, wherein A humidity sensing pattern unit configured to generate the short circuit current by sensing the humidity or moisture; A voltage converter configured to receive the short circuit current and convert the short circuit current into a sensed voltage; A comparator for generating a flag signal by comparing the sensed voltage with a preset reference voltage; And An organic light emitting device comprising a power breaker for receiving the flag signal to cut off the power supply. The organic light emitting device of claim 2, wherein the reference voltage is a level voltage corresponding to a relative humidity of 90% to 95%. The method of claim 2, wherein the chip of film (Chip Of Film), A first connector connected to the organic light emitting system; A second connector connected to the organic light emitting panel; Semiconductor chips which receive and control the control signal; And And at least one pattern line through which the short-circuit current flows. The method of claim 4, wherein the humidity sensing pattern portion, And at least one humidity sensing pattern wired at a predetermined distance from the at least one pattern line. The organic light emitting device of claim 5, wherein the humidity sensing pattern part is formed at left and / or right ends of the chip mounting film. The organic light emitting device of claim 5, wherein the predetermined interval is a narrower distance than a fin interval formed on the first connector, the second connector, or the semiconductor chips of the chip mounting film.

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