KR960007993B1 - Electro luminescent display device for position detecting - Google Patents

Abstract

a position sensing device part comprised by forming a resistor(2), a Cr film(3), an insulator(4) and a SOG film(5) on a transparent electrode in sequence; and an electro luminescent display device part comprised by forming a transparent electrode(6), a first insulator(7), a phospher layer(8), a second insulator(9), a rear electrode and a protection film(11) on the SOG film(5). Basic tools are a sputter, a rod coater, an etcher, a photolithography apparatus, and so on.

Description

Electroluminescent display device with integrated position sensing element

1 is a structural diagram of a conventional electroluminescent display device.

2 is a structure diagram of a conventional position sensing device.

3 is a structure diagram of a conventional position sensing device coupled display device.

4 is a structure diagram of an electroluminescent display device coupled with a conventional position sensing device for a touch screen.

5 is a configuration diagram for explaining the operation of the conventional position sensing element coupled display device.

6 is a structural diagram of a position sensing device-integrated electroluminescence display device of the present invention.

7 is a configuration diagram for explaining the operation of the position sensing element integrated electroluminescent display device structure diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1 glass substrate 2 resistive film

3: Cr film 4: Oxide film

5: SOG film 6: transparent electrode

7,9: insulation layer 8: fluorescent layer

10 back electrode 11: protective film

12 resistor film 13 back electrode and electrode for position sensing element

14,16 Cu layer 15,17 oxide film

18: conductive film containing a spacer 19: bonding material

20: Mylar Film 21: PCB Board

22: bonding material

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display element, and more particularly to a technique for integrating a position sensing element and an electroluminescent display element.

The thin film type electroluminescent display device is a display device using a phenomenon in which light is emitted by the transition of the emission center caused by the acceleration of electrons in the phosphor to excite the emission center when a high electric field of 10 V ⁶ / cm is applied. The compound semiconductor has a self-emitting mechanism that emits yellow or green light at the emission center of Mn, a transition metal, and TbF ₃ , a rare earth fluoride.

The excitation structure applies a high electric field of 10V ⁶ / cm to both ends of the phosphor to accelerate the hot electrons to excite the emission centers, and the direct collision excitation mechanism and the energetic electrons that emit light through the transition of the excited emission centers are the emission centers. This can be explained by an energy transfer excitation mechanism that generates electron-hole pairs when collided with and ionized and is excited to the emission center by recombination energy generated by non-radiative operation upon electron-hole recombination.

In order to complete such a mechanism, a sandwich structure in which a phosphor is covered with an insulator is used.

1 shows a structure of an electroluminescent display device.

On the other hand, the position sensing device is a device that senses the position using various physical signals, which are electromagnetic signals, and has been used in digitizers for CAD, etc. Recently, a touch screen and a pen base are used. It is used for PCs.

The position sensing device has a mechanism that is classified into electromagnetic, electrostatic pressure reducing type, and the like. In FIG. 2 (a), a method of transmitting signals by electromagnetic waves between a pad and a stylus using electromagnetic waves is a common method. Electromagnetic type, electrostatic type which performs signal processing between the pad and the stylus using capacitive coupling by installing a resistive film (such as a high resistance ITO film) on the glass substrate shown in FIG. This is a low-cost, inexpensive pad with low resolution as shown in 2 (c). It is a pressure-sensitive type that uses current and voltage characteristics due to contact between resistors due to pressure by using a resistor film mixed with a resistor film and a spacer on a glass substrate. There is this.

On the other hand, the display element and the position sensing element are combined modules, and the LCD (Liquid Crystal Displ-ay) and the position sensing element combined module are shown. There is an up type.

3A and 3B show the position sensing element lower type position sensing element coupled display element structure and the position sensing element upper position sensing element coupled type display element structure, respectively.

On the other hand, although the electroluminescent display element of the touch screen type as shown in FIG. 4 is commercialized, there is no electroluminescence display element of the type which can be used also for a pen base PC.

5 shows a block diagram of the operation of the position sensing element.

The touch screen generally has a disadvantage of poor resolution, and the pressure-sensitive type has a resolution such as an initial stage or a membrane structure using light (detecting a relatively narrow area by installing a photosensitive sensor at a predetermined interval in the glass). It is bad and character recognition or application to pen base is impossible.

Therefore, it is possible to combine the structure of the electroluminescent display device with the existing position sensing device, but it is not yet commercialized. In the case of the electroluminescent display device, self-emission is possible. none.

An object of the present invention is to provide a structure in which the electroluminescent display device and the position sensing device are integrated by changing the basic structure of the electroluminescent display device.

The position sensing device and the integrated electroluminescent display device of the present invention for achieving the above object will be described in detail with reference to the accompanying drawings.

Figure 6 shows the various structures of the position sensing element-integrated electroluminescent display device of the present invention, which can be divided into the upper and lower position sensing device and the electroluminescent display device process. As a component board of the position sensing element, it can be divided into glass, PCB, and mylar film.

Resistor for glass substrate, Cu layer for PCB substrate, and conductive layer mixed with spacers for mylar film. Sputter, roll coater, etcher, photolithography equipment, etc. This is used by default.

First, the position sensing element upper structure shown in FIG. 6 (a) is coated with a resistive film 2 on a glass substrate 1, and then patterned, coated with Cr, and patterned to form the patterned resistive film 2. By forming a Cr layer 3 on the top, and coating the patterning film 4 on the entire surface of the resultant, and then coating the SOG (Spin On Glass) film (5) by silk screen or roll coating After forming the electrostatic position sensing element, the transparent electrode 6, the insulating layer 7, the fluorescent layer 8, the second insulating layer 9, the back surface on the SOG film 5 as an electroluminescent display device process. After the electrodes 10 are sequentially formed by a normal process, the protective film 11 is formed on the entire surface of the resultant including the position sensing element to complete the position sensing display element type electroluminescent display element.

Next, the position sensing element lower structure shown in FIG. 6 (b) is, first, on the glass substrate 1, the transparent electrode 6, the first insulating layer 7, the fluorescent layer 8 and the second insulating layer. After the electroluminescent display device is formed by sequentially forming the layers 9, the resistive film 12 is coated and patterned on the second insulating layer 9, and then the transparent electrode 6 and the electroluminescent display device are formed. The back electrode and the position sensing element electrode 13 are formed on the resistor film 12, and the protective film 11 is formed on the entire surface of the resultant film.

Such a structure is advantageously applied to an electrostatic type and a pressure sensitive type position sensing device having excellent transparency.

Meanwhile, as shown in FIG. 6 (c), the position sensing element is replaced with the Cu layer 14 by the resistive film 12, and the upper layer 15 is coated and patterned thereon, and then the Cu layer (on 16 may be used as the electromagnetic position sensing device by forming the oxide film 17 again.

In the structures of FIGS. 6 (b) and 6 (c), light is emitted through the glass substrate in the electroluminescent display device, and thus, the substrate on the rear side does not have any relationship, and the PCB or mylar film is used as the upper substrate. It is also possible.

That is, it is possible to use all of the electrostatic type, the electromagnetic type, and the pressure reducing type.

Next, referring to FIG. 6 (d), the pressure-sensitive position sensing element-integrated electroluminescence display element is described. The process of the electroluminescence display element is reversed, and the position sensing element is formed on the glass substrate. Coating and patterning Al on (1) to form the back electrode 10, the insulating layer 9 on the front surface, the fluorescent layer 8 is formed thereon, and the insulating layer 7 is formed thereon. Then, the transparent electrode 7 is formed and the protective film 11 is formed on the entire surface of the resultant to form an electroluminescent display device. Then, the resistive film 2 is coated on the protective film 11 and a spacer is included thereon. The conductive film 18 is coated with a silk screen, and then the amyloid film 20 is coated thereon to form a position sensing element, and the glass substrate on which the mylar film and the electroluminescent display element are formed by the bond material 19. (1) is bonded.

Next, referring to Fig. 6 (e), an electroluminescent display device having an electromagnetic type integrated position sensing element will be described. In the case of the electromagnetic type, since the use of a PCB substrate is advantageous for forming a collision, the position sensing element is replaced with a PCB substrate 21. Forming by forming the X-axis and X-axis Cu-axis and pad (not shown) on the top, and then bonding the glass substrate 1 in which the electroluminescence display device is reversed as shown in FIG. The material 22 is bonded to the PCB substrate 21 on which the position sensing element is formed.

This method is characterized in that the process of the electroluminescent display device is reversed in a structure biased by the pressure-sensitive type and the electromagnetic type.

7 is a configuration diagram for explaining the operation of the position sensing element integrated electroluminescent display device according to the present invention.

The electroluminescent display device is powered by 60Hz / 100V, 220V by AC drive, has a threshold voltage of 100V at a frequency of 1KHz ~ 5KHz, and has the highest luminance under the condition of up to 150 ~ 200V, and the position sensing device differs in each case. However, it is generally the same as the PC drive voltage and the drive frequency is 125KHz.

As shown in FIG. 7, a driving system for the position sensing device is required separately from the method and condition for driving the electroluminescent display device, and the position sensing device is configured to minimize the influence on the electroluminescent display device when the device is configured. Good grounding light.

In each case, the distance between the stylus and the sensor pad is advantageous in the case of the electrostatic type, and in the case of the electromagnetic type, the distance from the position sensing element is not important when the sensitivity of the stylus is improved or the pad is designed with high sensitivity. do.

In the case of the reduced pressure type, it is the same as the electrostatic type, but the structure of the electroluminescent display device must be completely reversed.

As described above, according to the present invention, it is possible to integrate with the position sensing element without greatly changing the structure of the electroluminescent display element, whereby a display element having excellent overall performance can be obtained.

In addition, any kind of position sensing device has the advantage that can be applied.

Claims (5)

A position sensing element portion formed by sequentially forming a resistor film 2, a Cr film 3, an insulating film 4, and an SOG film 5 on the transparent electrode 1, and a transparent electrode 6 on the SOG film 5; ), The first insulating layer (7), the fluorescent layer (8), the second insulating layer (9), the back electrode 10 and the protective film 11 is formed of an electroluminescent display element portion formed in this order, characterized in that Electroluminescent display device with integrated sensing element. An electroluminescent display element portion formed by sequentially forming a transparent electrode 6, a first insulating layer 7, a fluorescent layer 8, and a second insulating layer 9 on the transparent substrate 1, and the second insulating layer (9) A position sensing element-integrated electroluminescence display device comprising a position sensing element portion formed by sequentially forming a resistive film 12, an electrode 13, and a protective film 11 having side steps. The X-axis Cu layer 14 insulating layer 15, the Y-axis Cu layer 16, and the insulating layer 17 are sequentially formed on the second insulating layer 9. An electroluminescent display device having a position sensing device, characterized in that the electromagnetic position sensing device is made. An electroluminescent display element portion in which a back electrode 13, an insulating layer 9, a fluorescent layer 8, an insulating layer 7, a transparent electrode 6, and a protective film 11 are sequentially formed on a transparent substrate 1. And a position sensing element formed by sequentially forming a resistor film 2, a conductive film 18 including a spacer, and a mylar film 20 on the passivation layer 11. . An electric field formed by sequentially forming a transparent electrode 6, a first insulating layer 7, a fluorescent layer 8, a second insulating layer 9, a back electrode 10, and a protective film 11 on a transparent substrate 1. The X- and Y-axis Cu layers and pads are formed on the light emitting display element portion, the PCB substrate 21, and the position detection is performed by bonding the protective film 11 to the electroluminescent display element portion by the bonding material bill 22. A position sensing device-integrated electroluminescence display device comprising an element part.