KR950002289B1 - Liquid crystal display device - Google Patents

Abstract

The LCD improves the working efficiency by driving a correspondent pixel by use of a preserved TFT if a TFT gets mulfunctioned. The LCD comprises a gate (14B) and a source (14C) formed as a common electrode; a drain (14A) connected to an image element electrode (13A) formed at one side of the common electrode; a preserved drain (14A') positioned beside the image element electrode (13B).

Description

Liquid crystal display

1 is a plan view of a matrix of a general liquid crystal display.

2 is a matrix plan view of the liquid crystal display of the present invention.

3 is a cross-sectional view taken along line AA ′ of FIG. 2.

* Explanation of symbols for main parts of the drawings

11: source bus line 12: gate bus line

13A, 13B: pixel electrode 14, 15: transistor

14A, 14A ', 15A, 15A': Drain 14B, 15B: Gate

14C, 15C: source 14D, 15D: semiconductor layer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pixel structure of a liquid crystal display device, and more particularly, to a liquid crystal display device that is suitable for driving a pixel with a spare thin film transistor to improve yield when one TFT fails.

1 is a plan view of a matrix of a general liquid crystal display device, and as shown in FIG. 1, a thin film transistor 2 for controlling a transparent conductive pixel electrode 1 for red (R), green (G), and blue (B), And a source bus line 3 for supplying an image signal to the thin film transistor 2, and a gate bus line 4 for supplying a scanning signal, wherein the reference numeral 2A, which is not described, denotes a source electrode, 2B. &Quot; is the gate electrode, " 2C " is the drain electrode, and the operation of the conventional liquid crystal display configured as described above is as follows.

The pixel electrode 1 supplies an image signal supplied to the source electrode 2A through the source bus line 3 of the thin film transistor 2, which is a driving element, and the gate electrode 2B through the gate busline 4. As a result of the scanning signal, a current flows from the source electrode 2A toward the pixel electrode 1 and the drain electrode 2C in contact with the pixel electrode 1, and thus, between the common electrode of the upper substrate transparent electrode and the common electrode of the lower substrate transparent electrode. The potential difference is generated at the upper side, and the incident light is polarized by changing the liquid crystal array between the upper and lower substrates, thereby forming a desired screen.

However, in the conventional liquid crystal display device, only one pixel can be driven by using one thin film transistor, and thus, when a defect occurs in one thin film transistor, there is a problem that the corresponding pixel cannot be driven. .

The present invention provides a separate pixel driving drain adjacent to the pixel electrode driving thin film transistor to solve such a conventional defect, and when the adjacent thin film transistor does not function properly, the spare drain corresponds to the spare drain. Invented so that two pixels can be driven by one thin film transistor by connecting to a pixel will be described in detail with reference to the accompanying drawings.

2 is a matrix plan view of a transistor of the present invention, as shown therein, a source line 11 for supplying a video signal and a gate bus line 12 for supplying a scan signal are arranged, and the video signal and the scan signal are arranged. In forming the thin film transistor 14 for controlling the driving of the pixel electrode 13A, the gate 14B and the source 14C including the drain 14A connected to the pixel electrode 14A are formed. Thereafter, the preliminary drain 14A 'of the adjacent pixel electrode 13B is further formed, wherein reference numerals "14D" and "15D", which are not described, are semiconductor layers, and the operation and effect of the present invention constituted as described above. When described in detail as follows.

For convenience of explanation, the transistor 14, the pixel electrode 13A, the transistor 15, and the pixel electrode 13B will be described as an example.

The source bus in a normal state, that is, in a state where the drain 14A of the transistor 14 is connected to the pixel electrode 13A in the first processor, and the drain 15A of the transistor 15 is connected to the pixel electrode 13B. The source signal is supplied by the image signal supplied from the line 11 through the source 14C of the transistor 14 and the scan signal supplied through the gate bus line 12 to the gate 14B of the transistor 14. In 14C, a current flows toward the drain electrode 14A in contact with the pixel electrode 13A, thereby generating a potential difference between the common electrode of the upper substrate pixel electrode 13A and the common electrode of the lower substrate pixel electrode. The remaining pixel electrodes are also driven in this way. Here, by changing the arrangement of the liquid crystal between the upper and lower substrates, the incident light is polarized to form a desired screen.

If a fail occurs in the transistor 15, the pixel electrode 13B cannot be used in the related art, but in the present invention, after the drain 15A of the transistor 15 is cut off, the transistor is cut. The pixel electrode 13A and the pixel electrode 13 are connected to the pixel electrode 13B by connecting a drain 14A 'provided as a reserve in the transistor 14 adjacent to the pixel electrode 13B. 13B) can be driven simultaneously to compensate for the failure.

In general, a pixel array includes a triangular array, a stripe, and the like. In the present invention, a strip method is used.

As described in detail above, the present invention provides an additional drain in the pixel electrode driving thin film transistor so that the adjacent drain is connected to the corresponding pixel electrode when the adjacent thin film transistor fails to perform its function. There is an effect that can improve the yield by driving.

Claims (1)

In the thin film transistor for driving the liquid crystal injected between the upper and lower plates of the liquid crystal display panel, the gate 14B and the source 14C are formed as a common electrode, and a drain connected to the pixel electrode 13A on one side thereof ( And a preliminary drain electrode (14A ') at a position adjacent to the peripheral pixel electrode (13B) on the other side.