KR200226362Y1 - Plat Panel Display with Input Device - Google Patents

Abstract

The present invention relates to a flat panel display with an input device. More specifically, the touch screen driver and the display driver, which are configured as separate control boards, are connected to each other in a circuit to improve assembling, reduce defects, and simplify wiring. To reduce the distortion signal.

In the flat panel display to which the input device of the present invention is added, a display control board and a touch screen control board are divided into separate PCBs, and the PCBs of the respective control boards are electrically connected through an interface medium. The wiring from the screen is not directly connected to the control board for the touch screen, but is configured to be electrically connected to the control board for the touch screen by first contacting the control board for the display, and separates the control board for the display from the control board for the touch screen. The control board for display is characterized in that the wiring for driving the touch screen is provided so that the wiring from the touch screen can be first contacted with the electrical connection through the interface medium separated by a PCB.

This makes it possible to shorten the wiring from the touch screen to the display control board, and then to the control board for the display to shorten the wiring from the touch screen to electrically connect the display and the input device, thereby improving problems such as signal distortion. You can do it.

Description

Flat panel display with input device

The present invention relates to a flat panel display with an input device. More specifically, the touch screen driver and the display driver, which are configured as separate control boards, are connected to each other in a circuit to improve assembling, reduce defects, and simplify wiring. To reduce the distortion signal.

In general, the touch screens corresponding to the display and the input device are driven by separate control boards. In particular, in the process of assembling the touch screen on the existing display, the weak connection wiring is easily broken or long in appearance, and the signals transmitted through the long wiring can easily be distorted by the control board for display. In the case where the display is assumed to be LCD and the touch screen positioned on the upper part is assumed to be a digitizer, various problems caused by the wiring of the display and the touch screen may be understood through the schematic cross-sectional structure of FIG. 1.

1 is a schematic cross-sectional view of a general case of mounting a digitizer on the LCD. In the LCD 1, sealants 3 are formed at both ends of the lower substrate 2 on which the thin film transistor is formed, and the sealant 3 bonds the upper substrate 4 and the lower substrate 2 positioned thereon. It is a kind of adhesive material, and it is a sealing agent for holding a liquid crystal between the board | substrates. In addition, a first anisotropic conductive film 5a is disposed on one side of the lower substrate 2, and a second anisotropic conductive film 5b is disposed on the printed circuit board 6 at a position separated from the lower substrate 2. The FPC (Flexible Printed Cable) is bonded to the 1.2 anisotropic conductive films 5a and 5b, and the driving IC 8 is provided on the FPC 7. A linearizer is installed on the upper substrate 4 to convert light incident from the outside into linearly polarized light. An electric field applying plate 10 is disposed on the linear flat panel 9 and a voltage sensing plate is disposed thereon. 11) where the electric field applying plate 10 and the voltage sensing plate 11 corresponds to the digitizer 12.

In the electric field applying plate 11 of the digitizer 12, a transparent electrode layer is formed on a substrate, and an electrode is formed thereon. Similarly, the voltage sensing plate 11 has a substrate, a transparent electrode layer, and a metal pattern layer. They output an electrical signal representing the pressure coming from the outside as position information.

The front side of the electric field applying plate 10 is shown as FIG. A plurality of electrodes 14 are formed at regular intervals along each side of the edge of the rectangular active region 13, which is the position detection region of the digitizer 10. In addition, the inactive region 15 surrounding the active region 13 has a wiring 16 connected to the electrode 14. Each wire 16 is connected to the electrode 14 via a portion of the edge of the non-active area 15 and another non-active area 15 from a driver which is an external circuit element. Here, the active region 13 is a region where the digitizer 12 actually detects a position, and has a flat straight metal plate (low resistance metal) or a lattice metal plate structure.

Thus, when there is an electrode 14 of the substrate constituting the digitizer 12 and the wiring 16 for signal transmission between the electrode and the driving unit, the existing wiring method takes into consideration the connection workability when connecting to the driving unit 17 side. The wiring 16 is collected in one direction. This wiring 16 is elongated and leads to the control board 17 for the touch screen.

In general, since the touch screen (digitizer) is 1: 1 matched with the display (LCD), the touch screen comes directly in front of the display as shown in FIG. 1. In most cases, the display will be a flat display, but it can be a curved display like a CRT.

In this case, the normal display places the driving unit behind the display and in some cases, the lower part of the display. In the case of a flat display, it may be an LCD, and in the case of a curved display, it may be a CRT. In either case, the driving unit is present at the optimum position for the display. In the prior art, since the touch screen driving control board 17 is manufactured separately from the display driving control board, the touch screen and the display must be connected to the touch screen by pulling the wire long after contacting the touch screen and the display as shown in FIG. 1. In other words, it was difficult to avoid the aesthetic, work and product characteristics that occurred because it had to be directly connected to each control board for completely independent driving.

3 shows a conventional touch screen 20. On the right, it can be seen that the connector 70 is connected to the driving circuit portion.

FIG. 4 shows a circuit unit and each connection unit for driving the touch screen of FIG. 3.

The connector 71 connects the driving circuit unit 70a with a central processing unit in a system, that is, a PC or other kiosk.

The other connector 72 is a connection part connected to supply the power required for the operation of the board of the driving circuit part 70a, and may be omitted when receiving the power required from another connection part.

The driving circuit unit 70a plays a role of switching and the like to operate the touch screen 10 and sends data to the system. Finally, the connector 73 may be connected to the connector 70 of the touch screen 20 of FIG. 3 and may be connected by soldering or the like without a separate connecting part.

Therefore, a touch screen product may be referred to as FIG. 3 and FIG. 4, and a driver program required to drive the same. As such, if the touch screen is mounted on a notebook computer 80 as shown in FIG. 5A or a desktop computer 81 as shown in FIG.

Referring to FIG. 6, the system connection part and the connection part of the touch screen 20 and the driving circuit part 70a also protrude out of the notebook system.

Therefore, in consideration of the appearance and function, the drive circuit and the system connection part, etc. is forced to design inside the notebook system. In this case, since the touch screen 20 is designed to be in close contact with the display, the touch screen 20 has a cross-sectional structure similar to that of FIG. 7.

FIG. 7 illustrates an LCD as an example, in which a touch screen 20 is positioned at an upper portion of the LCD screen, and a light source 90 is disposed at a lower portion of the display 10. In the case of a self-luminous element such as a reflective LCD or an organic EL, such a light source is unnecessary.

Finally, the control board 60 which is a display driving circuit is located at the bottom.

In such a structure, a touch screen circuit part must eventually exist, and its position will be the same as that where the display driving circuit part is located in cross section. In this case, the touch screen and the touch screen driving circuit part can be connected to operate. In case of direct connection, a separate signal line crosses the display driving circuit part. Therefore, handling of long passing signal lines is also inconvenient and lengthening, resulting in distortion of the signal due to induction with the lower circuit part.

As described above, the conventional technology has a problem in that a long wiring length causes a lot of defects in the assembly stage, a complicated connection wiring to the touch screen board, and a large signal distortion problem, and it is difficult to efficiently arrange space in the product design. There is a disadvantage in product compaction.

In addition, since input to a system such as a PC cannot be performed on a control board for display, there is a disadvantage in interface.

Therefore, an object of the present invention is to improve the assemblability by connecting a touch screen driver and a display driver consisting of a control board in the configuration of a flat panel display having a touch screen.

Another object of the present invention is to construct a flat panel display having a touch screen and to connect the touch screen driver and the display driver with circuits to reduce defects on the connection wiring.

Another object of the present invention is to reduce the distortion signal from the wiring by simplifying the connection wiring between the touch screen and the display driving unit in configuring a flat panel display having a touch screen.

Features of the present invention to achieve these purposes,

In the input device system of the touch screen which connects the driving circuit board to the display and the touch screen so as to mount the touch screen on the display, and to switch the operation of the touch screen and to send data to the display system.

The input device system,

The control board for the display and the control board for the touch screen are divided into separate PCBs,

PCB of each control board is configured by electrically connecting through the interface medium,

The wiring from the touch screen is configured not to be directly connected to the control board for the touch screen but to be electrically connected to the control board for the touch screen by first contacting the control board for the display.

The control board for the display and the control board for the touch screen are divided into separate PCBs so that the wires from the touch screen come into contact with the display control board first, together with the electrical connection through the interface medium. It is characterized in that the wiring for driving is provided.

In the electrical connection between the display and the input device, the wiring wire from the touch screen can be shortened to the display control board and the touch screen control board can be connected to the display control board. It can be improved.

1 is a diagram schematically showing a liquid crystal display device as a typical display and a digitizer or touch screen as an input device as an example of the prior art.

2 is a front view of the digitizer of FIG.

3 is a view showing a touch screen and its connectors

4 is a configuration diagram of a conventional connection device for connecting a display and a touch screen

Figure 5 shows an example of a display capable of mounting a touch screen (a) a notebook computer (b) a personal computer

6 is a view for explaining an example of connection wiring of a conventional display and a touch screen;

7 is a view for explaining a cross-sectional structure of the LCD and the touch screen with a focus on the conventional connection wiring as an example

8 is a connection wiring diagram of a thin film display and a touch screen according to an embodiment of the present invention;

FIG. 9 is a schematic view of the back of FIG. 8; FIG.

10 is a view showing an example of another connection wiring of FIG.

* Description of the symbols for the main parts of the drawings *

10: Display (LCD.CRT, etc.) 20: Touch Screen

30: electrode 101: control board for touch screen

102: display control gate board 110, 111: wiring

120,120a: interface

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

In the present invention, as shown in FIGS. 8 to 10, the display control board 102 and the touch screen control board 101 are divided into separate PCBs.

Each PCB of the display control board 102 and the touch screen control board 101 is configured to be electrically connected through the media of the interfaces 120 and 120a.

In addition, the wiring from the touch screen 20 is configured to be electrically connected to the control board 101 for the touch screen by first contacting the display control board 102 without being directly connected to the touch screen driving control board 101. .

In addition, the display control board 102 and the touch screen control board 101 are divided into separate PCBs so that the wiring 110 from the touch screen 20 together with the electrical connection through the interface 120, 120 a is provided. The display control board 102 is provided with a wiring 111 for driving a touch screen so as to be in contact with the display control board 102 first.

8 is a front view in which the touch screen and the LCD are combined as an embodiment of the present invention, and connects the data PCB and the touch screen driving PCB to apply a signal to the electrode 30 of the touch screen 20 as shown in the drawing. This is where signals are delivered.

At this time, the connecting portion (interface) may be made of the same FPC as in the embodiment or may be made of a wire.

8 is shown based on the LCD, but can be seen to be similarly applied to the EL or any other display. In the case of LCDs, the touchscreen drive board can be connected to either the data PCB or the gate PCB.

FIG. 9 schematically shows the back side of FIG. 8, and the touch screen driving control board 101 is electrically connected to the LCD driving control board 102 as shown in the figure.

FIG. 10 schematically shows another embodiment of FIG. 9. As shown in the figure, it can be seen that the touch screen driving control board 101 is electrically coupled to the LCD driving control board 102. Unlike FIG. 9, the touch screen driving circuit unit is attached to the LCD panel PCB. If yes. What is connected here is connected via a printed wire on the PCB.

The input device of the present invention has a feature of interfacing the board by electrically connecting a separate control board. In particular, an interface component for driving a touch screen is embedded in a control board for a display, and a wiring portion for applying a signal to and reading a touch screen electrode is provided.

Therefore, it is possible to connect to the display without having a separate circuit for the touch screen, and as shown in FIGS. 8 to 10, signal line crossover due to directly connecting the touch screen and the circuit for driving the touch screen does not occur.

As described above, most displays and input devices, touch screens, are driven by separate control boards. In particular, in the process of assembling the touch screen on the existing display, the weak connection wiring is easily broken or long out, and the signals transmitted through the long wiring can easily be distorted by the display control board. When applying the present invention to configure the display input device, the wiring from the touch screen can be shortly connected to the display control board, and the touch screen board can be simply connected to the display board, thereby eliminating signal line length problems and various wiring problems. I can solve it.

Therefore, the length of the wiring is shortened, so it is easy to assemble during the assembly process and is less influenced by the interference by wiring later, and the serial wiring to the touch screen control board is simplified, which reduces the signal distortion caused by the wiring. When designing a display product having a device, the degree of freedom in designing the space is increased according to the arrangement of the wiring. In addition, data input to the system can be made from the control board for display, so the interface is advantageous over the conventional wiring method.

As such, the present invention changes the connection wiring for electrically connecting the display and the input device in adding the input device to the display, thereby reducing the overall length of the wiring and improving productivity and product reliability related to assembly failure and disconnection.

In addition, the connection wiring to the control board for the touch screen is simplified, which reduces the signal distortion caused by the wiring, thereby enhancing the product completion rate, and enables the efficient layout design of the wiring space, which will be reflected in the design of light, thin, simple, and small products. It can be effective.

In addition, data input from the display with the input device to the system can be input from the control board for the display, which facilitates the data interface.

Claims (1)

In a flat panel display with an input device that connects the driving circuit board to the display and the touch screen so as to mount a touch screen on the display, and to switch data and to send data to the display system to operate the touch screen. The input device, The control board for the display and the control board for the touch screen are divided into separate PCBs, PCB of each control board is configured by electrically connecting through the interface medium, The wiring from the touch screen is configured not to be directly connected to the control board for the touch screen but to be electrically connected to the control board for the touch screen by first contacting the control board for the display. The control board for the display and the control board for the touch screen are divided into separate PCBs so that the wires from the touch screen come into contact with the display control board first, together with the electrical connection through the interface medium. Flat panel display with an input device, characterized in that the wiring for driving is provided.