KR100254675B1 - Focus beam field emission display and method for driving the same - Google Patents

Abstract

PURPOSE: A focus beam field emission display is provided to make pixels of a gate line be focused without needing to install a focusing gate separately. CONSTITUTION: A plurality of cathode electrode lines(14) are formed lengthwise, and a plurality of gate electrode lines(18) are formed in a width direction so as to intersect with the cathode electrode lines(14). Red(R), green(G) and blue(B) are connected to an electrode wire(20) at unit pixels(16) where the cathode electrode lines(14) and the gate electrode lines(18) are intersected. The red, green and blue of each of the gate electrode lines(18) are intersected with each other.

Description

Focus beam field emission display device and driving method

The present invention relates to a focus beam field emission display device and a driving method. More particularly, the pixels of the gate line can be naturally focused by the upper and lower gate electrodes using the principle of the driving method without installing a focusing gate. The present invention relates to a focus beam field emission display device and a driving method.

In general, the field emission device is a microfabrication technology developed in the solid-state device industry using vacuum microelectronics, a new technology field, in the manufacture of vacuum devices. Compared with solid-state devices formed of materials such as semiconductors, In addition, because the transmission medium is vacuum, the radiation rate is not affected by the performance of the device even in an atmosphere where radiation is generated or under abnormal temperature conditions, and the transfer speed is very fast, and the size of the device can be minimized in microns.

In addition, the field development, the response speed, the power consumption is superior to the LCD, which is one of the most popular flat panel display devices.

A field emission display device is a type of flat panel display, which comprises a tip- or wedge-type cathode and an anode coated with a phosphor, which emits electrons, induces electron emission from a plurality of micro tips, and generates generated electrons. By impinging on the phosphor of the anode on which the conductive film is formed, the phosphor is stimulated to excite the outermost electrons of the phosphor, and is configured to display a desired image display using light generated in the process of transition.

Among them, a lot of researches have been conducted to focus the electrons emitted from the panel to increase the color purity displayed on the screen.

Referring to the configuration of a conventional field emission display device that is generally used, as shown in FIG. 1, a gate electrode line 2 is formed horizontally on a substrate, and the cathode electrode line 6 in a diagonal direction therewith. It is formed so as to cross each other in the checkered shape, and it is comprised so that the gate electrode line 2 and the cathode electrode line 6 may overlap and form the unit pixel 4.

As described above, as shown in FIG. 1, when the gate electrode line 2 is provided in a stripe shape, the gate electrode line 2 is not only structured so as not to affect the focusing of the electron beam, and a focusing gate must be separately installed. There was this.

That is, considering that the anode voltage is applied at a high voltage and the interval between the panels is wider, the scattering angle of the electron beam is 60 degrees. Therefore, the area where electrons collide with the neighboring unit pixel 4 is enlarged, thereby degrading color purity. Beam focusing is essential to improve display quality

Until now, research on beam focusing has been focused on the beam focusing by the lower panel such as the installation of the gate for focusing on the gate electrode and the installation of the focusing gate on the same plane with the gate. The situation is not harvested.

Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to naturally focus the pixels of the gate lines emitted by the upper and lower gate electrodes by using the principle of the driving method without the need for installing the focusing gate separately. A focus beam field emission display device and a driving method can be provided.

1 is a view showing a conventional light emitting display device.

2 is a view showing a focus beam field emission display device of the present invention.

3 is a view showing a method of driving a focus beam field emission display device according to the present invention;

<Explanation of symbols for main parts of drawing>

14: cathode electrode line 16: unit pixel

18: gate electrode line R: red

G: Green B: Blue

In order to achieve the object of the present invention as described above, the focus beam field emission display device and the driving method of the present invention, the cathode electrode line formed vertically, the gate electrode line formed horizontally to cross the electrode line, and the cathode Red (R), green (G), and blue (B) are connected to each other by electrode wiring at the unit pixel where the electrode line and the gate electrode line cross each other, and the red (R) and green ( G), blue (B) has a feature that is configured to cross each other.

The focus beam field emission display device of the present invention configured as described above will be described in detail below with reference to the accompanying drawings.

2 is a view showing a focus beam field emission display device of the present invention, Figure 3 is a view showing a method of driving the focus beam field emission display device of the present invention.

A plurality of cathode electrode lines 14 are formed vertically, and the gate electrode lines 18 are formed in the horizontal direction so as to intersect the cathode electrode lines 14, and the cathodes of the gate electrode lines 18 are horizontally formed. Red (R), green (G), and blue (B) are formed in the cathode electrode line 14 by one space in the portion of the unit pixel 16 of the portion overlapping with the line 14, and connecting them is an electrode wiring. Connect via (20).

In the lower side of the gate electrode line 18 formed by the red (R), the green (G), and the blue (B) configured as described above, the first formed red is formed in the subsequent formation of the plurality of gate electrode lines (18). It is formed in the next cathode electrode line 18 so as not to overlap with (R), and green (G) and blue (B) are similarly formed.

In the above configuration, the cathode electrode line 18 is formed in the same line every other column to gate the structure of the electrode wiring 20 connecting red (R), green (G), and blue (B). The structure surrounds the pixels of the image.

In the method for driving the focus beam field emission display device according to the present invention configured as described above, as shown in FIG. 3, the gate electrode lines 18 are alternately connected to each other to form N-th lines, and the gate electrode lines ( A gate line, such as N + 1, is formed by connecting the non-connected gate electrode lines 18) by one another in the same manner as described above.

As shown in FIG. 3, the N + th pixel is formed around the pixel of the Nth line and the Nth first line (not shown) formed on the upper side of the Nth line. Since pixels on the guideline naturally focus, electrons can be prevented from colliding with neighboring pixels.

In addition, as shown in FIG. 3, a pixel size can be reduced by bundling and driving two gate electrode lines, that is, a driving method in which subpixels of several small lines form one unit pixel.

Although the driving of the two gate electrode lines 18 described above is bundled, two or more of them may be bundled and used.

According to the present invention, the pixels of the gate lines which are emitted in the middle by the upper and lower gate electrodes can be naturally focused by using the driving method principle without having to separately install the focusing gate, and the effect of maximizing the focusing on the same plane is obtained There are features that can be.

Claims (3)

In forming the focus beam field emission display device, A unit pixel in which a vertically formed cathode electrode line 14, a gate electrode line 18 horizontally formed to intersect the electrode line 14, and the cathode electrode line 14 and a gate electrode line 18 cross each other In (16) provided with red (R), green (G), blue (B) connected to each other by the electrode wiring 20, The red (R), green (G), and blue (B) of the gate electrode line (18) are formed so as to cross each other between each other, the focus beam field emission display device. A driving method of a focus beam field emission display device, The cathode electrode line 14 is formed vertically, the gate electrode line 18 is formed to intersect horizontally, and the gate electrode line 18 is red on the unit pixel 16 intersected with the cathode electrode line 14. (R), green (G), and blue (B) are formed to be connected to each other, and formed to cross each other between red (R), green (G), and blue (B) of the gate electrode line 18 And driving the gate electrode lines (18) in bundles of two lines. The method of driving a focus beam field emission display device according to claim 2, wherein two or more gate electrode lines (18) are bundled and driven.

Images