KR101519212B1 - the Black Matrix of Flat Panel Display Functioning as Electromagnetic Antenna - Google Patents

Abstract

In place of the grid matrix formed on the flat panel display device, the position of the electromagnetic field generator can be recognized as the horizontal (X) coordinate and the vertical (Y) coordinate on the Cartesian plane, In order to isolate the two antenna elements forming the device, an insulator is formed between the antenna elements, and then the antenna elements are covered with an insulator so as to isolate the antenna elements from other circuits of the flat panel display device to form a black matrix A flat panel display device (not shown) for detecting the electromagnetic field and measuring the position of the electromagnetic field generator (mainly brush shape) in a two-dimensional or three-dimensional manner by intercepting the interference of light between the pixels Of the electromagnetic field antenna and the grid pattern light shield, omitting the substrate from the existing electromagnetic field antenna, and between the electromagnetic field generator and the antenna To reduce the distance between the two.
In the existing electromagnetic field antenna, it is possible to omit the substrate and the shield plate to reduce the thickness and weight, to position the antenna close to the electromagnetic field generator (FIG. 9) and to spread the distance from the main substrate where noise occurs, . It also reduces the number of parts, simplifies the assembly process and reduces manufacturing costs.

Description

[0001] The present invention relates to a flat panel display,

The present invention relates to an electromagnetic field antenna, and more particularly, to a 'Black Matrix' which is an electromagnetic field antenna of a flat panel display.

With the introduction of lightweight and thin electronic devices (smartphones, tablets, etc.) equipped with flat panel displays and intuitive methods (touch, sound, motion, etc.) as input devices, interest in electromagnetic field type input devices (digitizers, etc.) Is emerging. Although the input device of the electromagnetic field type is inconvenient in that the pen must be used in spite of the accuracy of the input, it has attracted attention again due to the excellent accuracy of the input of the handwriting input and the input resolution for the expression of the picture. In such an input device, an antenna is a portion that senses an electromagnetic field analogously and recognizes the position of a source of an electromagnetic field in a two-dimensional (or three-dimensional) manner.

A conventional electromagnetic field antenna in which an antenna circuit is formed on a separate substrate is positioned between the flat panel display device and the main substrate of the device. Such a structure is not only thick and heavy, but also the position of the flat plate marking device between the device (mainly brush type) generating the electromagnetic field and the antenna, so that the intensity of the signal received by the antenna is weakened corresponding to the thickness of the flat plate marking device The electromagnetic field generated from the main substrate of the electronic device causes a problem that the distance is close to that of the noise. In order to prevent electromagnetic noise on the main board, a shield is installed between the antenna and the main board to increase the thickness and weight of the electronic equipment.

As described above, in order to solve the signal attenuation due to the increase in the thickness and weight of the electronic device due to the conventional antenna and the thickness of the flat panel display device, an electromagnetic field generator (mainly a brush or an electromagnetic pen) In order to realize the antenna which is close to the antenna.

In order to achieve the above-mentioned object, the present invention provides an antenna in a black matrix formed on a substrate of a flat panel display, thereby reducing the thickness and weight of the antenna, and being close to an electromagnetic field generator Install the antenna.

The present invention forms an electromagnetic field antenna on a substrate (mainly a glass plate) of a conventional flat panel display,

It can reduce the thickness, weight and cost of electronic devices by removing the board and shield from the existing electromagnetic field antenna,

An electromagnetic field antenna can be installed close to an electromagnetic field generator (mainly a brush) so that the electromagnetic field generator's signal is weak or the signal detection efficiency of the antenna is low,

The back cover of the flat panel display device can be made of a metal plate other than the plastic, so that it is possible to manufacture a rigid, thin and heat-dissipating flat panel display device,

It is possible to simplify the number of components and assembling process of electronic devices, thereby improving the productivity.

FIG. 1 is a view showing an electronic device structure in which an existing electromagnetic field antenna (electromagnetic antenna)
Fig. 2 shows a structure of an electronic device using an antenna combined with a grid matrix (Black Matrix)
FIG. 3 shows a conventional electromagnetic field antenna
4 is a plan view of a flat panel display
5 is a view illustrating a process of forming a grid pattern light shield in a flat panel display device
6 is a view illustrating a process of forming a grid-patterned light shield for an antenna of a flat panel display device
Fig. 7 is a view showing another shape of the antenna-cum-grating light shield of the flat panel display device
8 is a plan view of a flat panel display driving substrate process for installing an existing electromagnetic field antenna
9 compares the distance between the electromagnetic field generator, the antenna and the main substrate

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings.

This embodiment is not intended to limit the scope of the present invention, but merely as an example, and various modifications are possible without departing from the technical scope of the present invention.

A black matrix of a flat panel display according to an embodiment of the present invention, which serves both as an electromagnetic field antenna, will now be described with reference to the drawings.

1 is an electronic device structure in which a conventional electromagnetic field antenna is installed

An electronic device having a conventional electromagnetic field antenna includes an electromagnetic field generator 100, a main body of an electromagnetic pen, a front cover 200, a flat panel display 300, an LCD or an OLED, , Electromagnetic Antenna) - Shield 500 - Main Board 600 - Back Cover (700, Back Cover). The minimum thickness of the conventional electromagnetic field antenna applied to portable equipment is 0.35mm, the typical thickness is 2.7mm, and the weight for 9.7 inch is 32g (W SU5E-09S02AS-00X standard). In addition, in order to install an electromagnetic antenna, a complicated process (see FIG. 8) in which the driving board of the flat panel display device, which may generate electromagnetic noise, may be separated and turned backward.

FIG. 2 is a structure of an electronic apparatus to which a grid matrix light grating (Black Matrix) serving as an antenna of a flat panel display device is applied.

1, the existing electromagnetic field antenna 400 and the shield plate 500 are omitted.

FIG. 3 shows a real and simple structure of a conventional electromagnetic field antenna.

A typical electromagnetic field antenna has a structure in which antenna elements are superposed horizontally and vertically so as to recognize the position of an electromagnetic field generator as a horizontal (X) and vertical (Y) coordinates on a Cartesian plane.

4 is a black matrix of a flat panel display.

The flat panel display displays a screen by combining three primary colors (regardless of LCD, OLED, etc.) to form a single dot (pixel). In this structure, not only three colors but also a set of three points (pixels) may emit light precisely, but the principle and structure are not so, and the light interferes with the light of a neighboring point (pixel) There are many. To solve this problem, a wall separating the light of the point (pixel) and the point (pixel) is made to display a vivid color and a shape. The sum of these walls is a black matrix.

The present invention enables the use of an electromagnetic field type input device without a separate antenna substrate by allowing the electromagnetic field antenna to function as a lattice pattern light shield of a flat panel display which simply shades the light.

5 is a process of forming a grid pattern light shield of a flat panel display.

A lattice pattern of a predetermined standard thickness is formed on the substrate 310 (mainly a glass plate) so that light does not pass through by etching or ink jetting. The screen of the flat panel display device displays a clear image and color by the dot (pixel) isolated by this grid light shield.

6 is a process of forming a grid pattern light shield for both electromagnetic field antennas of a flat panel display device.

The process of forming the grid pattern of a conventional flat panel display is divided into a horizontal (x, y coordinate) plane and a vertical (340, y coordinate) antenna element, A process of forming an insulator 330 for insulation is added to the region. After the antenna elements are formed in the horizontal and vertical directions, the antenna element is covered with an insulator (350, Cover Insulator) for insulation again so as to have the same shape as the conventional grid light shield and to serve as a multiplexer for shielding the light from the antenna.

7 shows another shape of the antenna-cum-grating light shield of the flat panel display device. The closer the antenna is placed on the plane, the higher the resolution of the incoming signal. But at the same time, the switching and processing unit (CPU) capacity to handle it will increase. Various methods are used to obtain the required resolution with a relatively small number of antennas. This is properly selected and determined between the fabrication cost of the antenna and the required resolution.

The grid-patterned light shield for the electromagnetic field antenna of the flat panel display thus made allows the thickness and the weight of the conventional electromagnetic field antenna to be reduced by omitting the substrate and the shield plate. The position of the antenna is made close to the electromagnetic field generator (FIG. 9) and the distance from the noise generated in the main substrate is widened so that it operates smoothly even with a low level electromagnetic field generator. It also reduces the number of parts, simplifies the assembly process and reduces manufacturing costs.

100 Electromagnetic Field Generator - A part of the input device that generates the electromagnetic field is mainly in the form of a writing instrument (mainly Electromagnetic Pen)
200 Front Cover - A cover that protects the screen with a tempered glass that forms the front of the electronic device
300 Flat Panel Display - Display device of electronic equipment
400 Electromagnetic Antenna - Detecting the location of the electromagnetic field source
500 Shield - Prevents noise from main board
600 Main Board (Mail Board)
700 Back Cover - The protective cover that forms the back of the electronic device

Claims (1)

In place of the grid matrix formed on the flat panel display device, the position of the electromagnetic field generator can be recognized as the horizontal (X) coordinate and the vertical (Y) coordinate on the Cartesian plane, In order to isolate two overlapping antenna elements, an insulator is formed between the two antenna elements, and then the antenna elements are covered with an insulator to isolate the antenna elements from the other circuits of the flat panel display, And an electromagnetic field antenna of a flat panel display device capable of measuring the position of the electromagnetic field generator by detecting the electromagnetic field and measuring the position of the electromagnetic field generator in two or three dimensions by forming a lattice pattern Plaid light-shield.

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