KR19990011727A - Driving device of thin film transistor liquid crystal display - Google Patents

Abstract

The present invention relates to a driving device for a thin film transistor liquid crystal display device, comprising: an interface circuit for generating a first line inversion signal and generating a second line inversion signal after a predetermined time after the first line inversion signal is generated; An off voltage generation circuit configured to receive an first line inversion signal output from the interface circuit and generate an off voltage Voff; An on voltage generator circuit receiving the second line inversion signal output from the interface circuit to generate an on voltage Von; And a gate driving circuit configured to receive an off voltage Voff output from the off voltage generator circuit and an on voltage Von output from the on voltage generator circuit, and output a gate voltage, wherein the on voltage Von and the off voltage are output. The first line inversion signal RVS and the second line inversion signal RVS 'which are used to make Voff are generated in the interface circuit 10 at predetermined intervals, so that the on voltage Von and the off voltage ( The margin of the time interval between Voff) is sufficient to prevent the gate driving circuit from operating abnormally.

Description

Driving device of thin film transistor liquid crystal display

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display (LCD), and more specifically, an on voltage Von and an off voltage Voff applied to a gate driving circuit using separate line inversion signals. The present invention relates to a driving device for a thin film transistor (TFT) liquid crystal display device to generate.

In general, a thin film transistor liquid crystal display is driven by supplying voltage waveforms to a gate electrode, a data electrode, and a common electrode on an upper end thereof.

In this case, an interface circuit and various circuits are configured to normally operate a gate driving circuit for supplying a gate voltage waveform applied to the gate electrode and a source driving circuit for supplying a data voltage waveform applied to the data electrode. This is necessary.

Among the gate driving circuits, when the data voltage is applied to the pixels constituting the liquid crystal panel, the gate driving circuit sequentially supplies the gate voltages one by one to operate the thin film transistor so that the data voltage can be applied to the liquid crystal capacitor. In order to operate the gate driving circuit, several signals are required, for example, a Von voltage for making a gate on signal and a Voff voltage for a gate off signal.

The Von voltage and the Voff voltage are generated by the Von Voff generating circuit. For example, a line inversion signal (RVS) that swings from 0 to 5V in one horizontal period (H: Horizontal period) is received as an input. It is clamped in to make a Voff voltage swinging from about -7V to -2V, and amplified to produce a Von voltage swinging from 20V to 30V and output to the gate driving circuit.

At this time, the line inversion signal RVS is supplied from the interface circuit. The interface circuit receives the basic clock as an input and uses the counter and the decoder to provide the line inversion signal RVS and the same. The inverted signal (RVSB) of the signal is generated and output to the Von Voff voltage generator circuit.

As described above, in order for the gate driving circuit to operate normally, several signals must operate normally. If abnormally input, the gate driving circuit does not operate normally but latches up. Is caught.

The normal input order of signals input to the gate driving circuit is Vdd-Voff-Von, and the gate driving circuit needs to receive these signals at regular intervals or longer to operate normally.

On the other hand, in the conventional thin film transistor liquid crystal display, the Von Voff generation circuit receives the line inversion signal RVS and its inversion signal RVSB output from the interface circuit to generate the Von voltage and the Voff voltage. The resistor is placed on the resistor to make the Von voltage at some time interval after the Voff voltage is generated.

However, this conventional technique uses one line inversion signal (RVS) and its inversion signal (RVSB) to make the Von voltage and the Voff voltage, so that the time interval between the two voltages is insufficient, which is an abnormal operation of the gate driving circuit. There is a time to go up.

Accordingly, an object of the present invention is to solve the above-mentioned conventional problem, and to produce a line inversion signal and another line inversion signal occurring after a certain time after the generation of the line inversion signal in the interface circuit, and using these signals The present invention provides a driving device for a thin film transistor liquid crystal display device in which the gate driving circuit does not operate abnormally because the Von voltage and the Voff voltage are made.

1 is a block diagram of a driving device of a thin film transistor liquid crystal display according to an embodiment of the present invention;

2 is a timing diagram of signals used in a driving device of a thin film transistor liquid crystal display according to an exemplary embodiment of the present invention.

As a means for achieving the above object, the present invention,

An interface circuit for generating a first line inversion signal and generating a second line inversion signal after a predetermined time after the first line inversion signal is generated;

An off voltage generation circuit configured to receive an first line inversion signal output from the interface circuit and generate an off voltage Voff;

An on voltage generator circuit receiving the second line inversion signal output from the interface circuit to generate an on voltage Von;

And a gate driving circuit configured to receive an off voltage Voff output from the off voltage generator circuit and an on voltage Von output from the on voltage generator circuit, and output a gate voltage.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of a driving apparatus of a thin film transistor liquid crystal display according to an embodiment of the present invention, and FIG. 2 is a timing diagram of signals used in the apparatus.

As shown in FIG. 1 and FIG. 2, the driving apparatus of the thin film transistor liquid crystal display according to the exemplary embodiment of the present invention includes a first line inversion signal RVS swinging from 0 to 5V in one horizontal period 1H. The second line inversion signal RVS 'and the second line which generate and output the inversion signal RVSB of the one line inversion signal RVS, and swing again from 0 to 5 V in one horizontal period 1H after a predetermined time. An interface circuit unit 10 which generates and outputs an inverted signal RVSB 'of the inverted signal RVS'; An off voltage generator 20 which receives the first line inversion signal RVS and the inversion signal RVSB of the first line inversion signal RVS output from the interface circuit unit 10 to generate an off voltage Voff; ; An on voltage generator for receiving the second line inversion signal RVS 'and the inversion signal RVSB' of the second line inversion signal RVS 'output from the interface circuit unit 10 to generate an on voltage Von. 30); A gate driver which receives the off voltage Voff generated from the off voltage generator 20 and the on voltage Von generated from the on voltage generator 30 and applies a gate voltage to the gate electrode of the liquid crystal panel 50. And 40.

The interface circuit unit 10 according to the embodiment of the present invention generates a first line inversion signal RVS, and counts a predetermined time and then generates a counter for generating a second line inversion signal RVS '. And (12).

The operation of the driving apparatus of the thin film transistor liquid crystal display device according to the embodiment of the present invention by the above configuration is as follows.

First, when power is applied to the thin film transistor liquid crystal display device, as shown in FIG. 2, the power supply voltage Vdd rises from a low level to a high level.

When the power supply voltage Vdd is applied, the counter 12 of the interface circuit unit 10 generates the first line inversion signal RVS swinging from 0 to 5V in one horizontal period 1H, thereby making the off voltage generator 20 Will output

In addition, the inverted signal RVSB of the first line inverted signal RVS is also generated and output to the off voltage generator 20.

Next, the counter 12 inverts the second line which swings from 0 to 5V in one horizontal period 1H, similarly to the first line inversion signal RVS, after a predetermined time has elapsed since the occurrence of the first line inversion signal RVS. A signal RVS 'and its inverted signal RVSB' are generated and output to the on voltage generator 30.

On the other hand, the off voltage generator 20 receives the first line inversion signal RVS and the inversion signal RVSB of the first line inversion signal RVS output from the interface circuit unit 10 to receive the off voltage Voff. Generate and output it to the gate driver 40.

In addition, the on voltage generator 30 receives the second line inversion signal RVS 'and the inversion signal RVSB' of the second line inversion signal RVS 'output from the interface circuit unit 10 to turn on the on-voltage ( Von) is generated and output to the gate driver 40.

The gate driver 40 receives the off voltage Voff output from the off voltage generator 20 and the on voltage Von output from the on voltage generator 30, and gates the gate electrode of the liquid crystal panel 50. Apply on / off voltage.

As described above, in the exemplary embodiment of the present invention, the first line inversion signal RVS and the second line inversion signal RVS 'which are used to make the on voltage Von and the off voltage Voff are interface circuit units 10. Thin film transistor liquid crystal display in which the margin of the time interval between the on voltage Von and the off voltage Voff is sufficient to prevent the gate driving circuit from operating abnormally. A drive device for the device can be provided.

Claims (2)

An interface circuit for generating a first line inversion signal and generating a second line inversion signal after a predetermined time after the first line inversion signal is generated; An off voltage generator circuit for receiving an first line inversion signal output from the interface circuit to generate an off voltage; An on voltage generator circuit receiving the second line inversion signal output from the interface circuit to generate an on voltage; And a gate driving circuit configured to receive an off voltage output from the off voltage generator and an on voltage output from the on voltage generator, and output a gate voltage. The method of claim 1, The interface circuit may include a counter for generating the first line inversion signal and generating the second line inversion signal after counting a predetermined time.