KR20030058618A - Circuit of drive ic for tft-lcd - Google Patents

Abstract

PURPOSE: A drive IC for TFT-LCD is provided to reduce the number of signal lines by using simultaneously enable signals of a shift register, namely a data carry signal and a data latch signal and using simultaneously a rising edge and a falling edge of the data carry signal in order to perform a signal processing procedure. CONSTITUTION: A drive IC for TFT-LCD uses simultaneously a data carry signal and a data latch signal of control signals which are used between a timing controller and the drive IC of the TFT-LCD. The drive IC for TFT-LCD is characterized in that the number of signal lines is reduced by using simultaneously a rising edge and a falling edge of the data carry signal in order to perform a signal processing procedure.

Description

CIRCUIT OF DRIVE IC FOR TFT-LCD of Thin Film Transistor Liquid Crystal Display

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drive IC circuit of a thin film transistor liquid crystal display (TFT-LCD), and more particularly, an enable signal of a shift register, that is, a data carry signal STH and a data latch signal LOAD. The present invention relates to a drive IC circuit of a TFT-LCD which reduces signal lines of an LCD drive IC by using the same.

1 is a block diagram illustrating a drive IC circuit of a TFT-LCD according to the prior art, wherein a transmitter IC unit 10, a timing controller unit 20, a source drive IC unit 30, and a gate are illustrated. The drive IC unit 40 is provided.

The transmitter IC unit 10 outputs a clock signal clk, a data enable signal DE, and a data signal data to the timing controller unit 20.

The timing controller 20 receives the clock signal clk, the data enable signal DE, and the data signal data output from the transmitter IC unit 10, and receives the source drive IC unit ( 30 and a liquid crystal panel driving signal to the gate drive IC unit 40.

The signal generated from the timing controller unit 20 to the source drive IC unit 30 includes a data latch enable signal STH, a driving signal CPH, a pixel data signal data, and an output polarity. an output polarity signal POL and a data output signal LOAD. In addition, the signal generated from the timing controller unit 20 to the gate drive IC unit 40 includes a driving signal STV (CPV).

The main role of the timing controller 20 receives the pixel data signal RGB through a host interface, distributes data to each source drive IC, and controls the gate drive IC.

The source drive IC unit 30 latches each of the RGB data sequentially inputted in accordance with a dot clock in the timing controller 20 to change the timing system of the dot sequence method into the line sequence method.

2 is a block diagram showing an internal configuration of a drive IC unit according to the prior art.

As shown, the drive IC is composed of a shift register section 51, a first latch section 53, a second latch section 55, a D / A conversion section 57, and an output circuit section 59.

There are a shift register 51 for processing image data, a data latch enable signal STH, a clock signal CLK, a latch enable signal LOAD, and a polarity signal POL, which are control signals for the processing.

The drive IC transfers data stored in the first latch unit 53 to the second latch unit 55 in accordance with a transfer enable signal every horizontal line period. The data stored in the second latch portion 55 is converted into an analog voltage at the D / A conversion qn 57 and then applied to the data line via a current buffer (output circuit portion 59).

3 is an operation waveform diagram of a control signal used between a timing controller and a drive IC of a TFT-LCD according to the prior art.

In the drive IC circuit of the TFT-LCD according to the prior art, the image data and control signals of the pixel drive driver IC in the control IC of the TFT-LCD module are transmitted in the form of a bus on the printed circuit board. At this time, 36 to 48 image data signals and about 10 control signals require a very difficult technique in design. Since the data of the existing LCD driver IC must include basic image data and data for processing various signals, there is a need to reduce the data. In particular, signal reduction is especially necessary for higher resolution and data bits and for optimal design of the PCB.

Accordingly, an object of the present invention is to solve the above problems, and an object of the present invention is to simultaneously use an enable signal of a shift register, that is, a data carry signal STH and a data latch signal LOAD. Therefore, the present invention provides a driver IC circuit of a TFT-LCD which reduces the signal line of the LCD drive IC.

1 is a block diagram showing a driving circuit of a TFT-LCD according to the prior art.

Figure 2 is a block diagram showing the internal configuration of a drive IC unit according to the prior art

3 is an operation waveform diagram of a control signal used between a timing controller and a drive IC of a conventional TFT-LCD.

4 is an operation waveform diagram of a control signal used between the timing controller and the drive IC of the TFT-LCD according to the present invention;

(Explanation of symbols for the main parts of the drawing)

DE: Data enable signal MCLK: Main clock

STH: Data latch enable signal POL: Output polarity signal

LOAD: Data output signal

In order to achieve the above object, the drive IC circuit of the TFT-LCD according to the present invention,

The data carry signal STH and the data latch signal LOAD are simultaneously used among the control signals between the timing controller and the drive IC of the TFT-LCD, and the rising and falling edges of the data carry signal STH are used for signal processing. It is characterized by reducing the signal line by using at the same time.

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

4 is an operation waveform diagram of a control signal used between the timing controller and the drive IC of the TFT-LCD according to the present invention.

First, the present invention has devised a method of simultaneously writing a data enable signal STH and a data transfer signal or a drive IC output signal LOAD in order to reduce the control signal.

The current data output signal LOAD is generally used to start data latching on the rising edge and to start the output on the falling edge.

However, a method of writing only the data latch signal and outputting the output after a predetermined time (63 clk) is also used. Since the data is not recognized when polling the data latch enable signal STH, the falling edges of the two signals are used without writing.

To account for this, one signal can be reduced by simultaneously using rising and falling edge triggers on one signal.

Here, the first problem to consider is that you cannot write the final analog output period to the falling edge of a commonly used data output signal (LOAD). As mentioned above, the output method after a certain time can be used.

The second is not a problem with a single drive IC, but with multiple drive ICs in parallel.

Currently, eight or more drive ICs are used to drive TFT-LCD panels. In this case, the interval between the data latch enable signal STH and the data output signal LOAD is different.

In general, the current driving method receives the signal STH2 of the first drive IC from the second IC. This spacing problem can be generated by adjusting the spacing in the generation of the STH2 signal. In this way, the interval may be adjusted by regenerating the data latch enable signal STH including the interval of the first data output signal LOAD.

As described above, the present invention simultaneously uses the data carry signal STH and the data latch signal LOAD among control signals between the timing controller of the TFT-LCD and the drive IC, and rises the data carry signal STH for signal processing. By using the edge and the falling edge simultaneously, signal lines can be reduced.

As described above, the drive IC circuit of the thin film transistor liquid crystal display (TFT-LCD) according to the present invention includes an enable signal of a shift register, that is, a data carry signal (STH) and a data latch. By simultaneously using the signal LOAD, the signal line of the LCD drive IC can be reduced.

In addition, preferred embodiments of the present invention are disclosed for the purpose of illustration, those skilled in the art will be able to various modifications, changes, additions, etc. within the spirit and scope of the present invention, these modifications and changes should be seen as belonging to the following claims. something to do.

Claims (1)

The data carry signal STH and the data latch signal LOAD are simultaneously used among the control signals between the timing controller and the drive IC of the TFT-LCD, and the rising and falling edges of the data carry signal STH are used for signal processing. A drive IC circuit of a thin film transistor liquid crystal display (TFT-LCD), characterized in that the signal lines are reduced by using the same.