KR0169625B1 - Synchronous signal pattern circuit and its method for multi-media lcd driving control - Google Patents

Abstract

1. Claims The technical field to which the invention pertains is: A technique for waveform shaping of a variety of horizontal and vertical synchronization signals for controlling LCD driving for multimedia.

2. Technical problem to be solved by the invention: Waveform shaping various types of vertical and horizontal synchronous signals into one standard form.

3. Summary of Solution of the Invention: Inputs various types of vertical and horizontal synchronous signals and converts them into vertical and horizontal synchronous signals of polling edge type by the synchronization signal polarity detection signal, and converts the polarized vertical and horizontal synchronous signals. Detects a falling edge, starts counting by receiving the detected edge detection signal, generates a vertical and horizontal synchronous pulse section setting control signal by a pulse interval adjustment signal, and receives the detected edge detection signal to receive the vertical and horizontal The vertical and horizontal synchronous signals of a certain waveform are output by the synchronous pulse section setting control signal.

4. Significant use of the invention: Display device using LCD.

Description

Synchronization signal shaping circuit and method for LCD driving control for multimedia

1 is a waveform diagram of various control signals for driving an LCD of a display device using an LCD.

2 is a waveform diagram of various types of vertical and horizontal synchronization signals.

Figure 3 is a multimedia LCD drive control circuit diagram according to the present invention.

4 is a detailed circuit diagram of a synchronization signal waveform shaping unit 12 according to the present invention.

5 is a waveform diagram of each sub-operation of FIG. 2 according to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a synchronization signal shaping circuit and method for LCD driving, and more particularly, to a synchronization signal shaping circuit and method for waveform shaping of various horizontal and vertical synchronization signals for a certain form of LCD driving control for multimedia.

Today, as society becomes more complex, the importance of information grows, resulting in an information medium called multimedia. In order to implement this multimedia, user interface devices are being developed, the core of which is the connection with a personal computer, and such a personal computer has a trend of being able to carry information by displaying information using a liquid crystal display (LCD). Is in. Therefore, a monitor in a portable computer has to replace the LCD panel function, and various methods have been proposed to display the monitor's signal on the LCD. The synchronization signal used for the monitor has a wide variety of forms depending on the period, width, polarity, etc. of the first diagram according to the line mode. By the way, since the data that can be displayed on the LCD is fixed, the data is displayed in accordance with the timing of the constant drive control signal as shown in FIG. The reference is a constant vertical and horizontal synchronization signal. In order to display data by using such an LCD monitor, the timing signal of the LCD driving control signal must be changed in accordance with the vertical and horizontal synchronization signals that change depending on the situation. Therefore, there is a problem that the configuration of the LCD drive controller is complicated.

Accordingly, an object of the present invention is to provide a synchronization signal waveform shaping circuit and method for waveform shaping various types of synchronization signals into one standard form in order to solve the above problems.

Another object of the present invention is to provide a synchronization signal waveform shaping circuit and a method for simplifying the configuration of an LCD driving controller by waveform shaping of various types of vertical and horizontal synchronous signals into one standard form.

According to the present invention for achieving the above object, the polarity conversion means for inputting the vertical and horizontal synchronous signal to convert the vertical and horizontal synchronous signal in the form of a falling edge by the synchronization signal polarity detection signal, and the output from the polarity conversion means Polling edge detection means for detecting the falling edge of the vertical and horizontal synchronization signal, and counting is started by receiving the edge detection signal detected from the falling edge detection means and the vertical and horizontal synchronous pulse section setting control signal by the pulse interval adjustment signal. A shaping pulse generator is configured to generate a waveform and a vertical and horizontal sync signal of a predetermined shape by receiving the edge detection signal detected from the falling edge detecting means and the vertical and horizontal sync pulse section setting control signals. And synchronous pulse output means.

According to the present invention for achieving the above object, the process of converting the vertical and horizontal synchronous signal of various types to the vertical and horizontal synchronous signal of the falling edge type by the synchronization signal polarity detection signal, and the polarity converted vertical And detecting a falling edge of a horizontal synchronization signal, starting counting by receiving the detected edge detection signal, and generating vertical and horizontal synchronization pulse interval setting control signals by a pulse interval adjustment signal, and detecting the detected edge. Receiving a detection signal and outputting the vertical and horizontal synchronous signals having a predetermined waveform by the vertical and horizontal synchronous pulse section setting control signals.

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

3 is a circuit diagram of the LCD driving control for multimedia according to the present invention.

The synchronization signal polarity detector 10 detects polarity by determining a rising or falling type of the horizontal and vertical synchronization signals inputted. The synchronizing signal waveform shaping unit 12 performs waveform shaping on the vertical and horizontal synchronizing signals into a synchronizing signal having a predetermined form by the polarity detection signal. The LCD driving controller 14 receives the waveform-shaped vertical and horizontal synchronization signals and generates various LCD driving control signals. The LCD driver 16 drives the LCD 18 according to the LCD drive control signal so that data is displayed.

4 is a detailed circuit diagram of a synchronization signal waveform shaping unit 12 according to the present invention.

A vertical synchronous polarity converting unit 30 for inputting a vertical synchronous signal and converting the vertical synchronous signal into a vertical synchronous signal in the form of a falling edge by the synchronization signal polarity detection signal;

A horizontal synchronizing polarity converting unit 32 for inputting a horizontal synchronizing signal and converting the horizontal synchronizing signal into a horizontal synchronizing signal in the form of a falling edge by the synchronizing signal polarity detection signal;

A first falling edge detector 34 which detects a falling edge of the vertical synchronization signal output from the vertical synchronization polarity converting unit 30;

A second falling edge detector 36 for detecting a falling edge of the horizontal synchronization signal output from the horizontal synchronization polarity converting unit 32;

The vertical pulse section setting section 38, which comprises a counter and a decoder, starts counting by receiving the edge detection signal detected by the first falling edge detector 34 and generates a vertical synchronous pulse section setting control signal by a pulse section adjustment signal. )Wow,

A horizontal pulse section setting section 40 configured to receive an edge detection signal detected by the second falling edge detector 36 to start counting and generate a horizontal synchronous pulse section setting control signal by a pulse section adjustment signal. )Wow,

A first flip-flop 42 which receives the edge detection signal detected by the first falling edge detector 34 and outputs a waveform-shaped vertical synchronization signal of a predetermined shape by the vertical synchronization pulse interval setting control signal;

And a second flip-flop 44 which receives the edge detection signal detected by the second falling edge detector 34 and outputs a horizontally shaped horizontally synchronized signal having a predetermined waveform by an diffuser horizontally synchronized pulse section setting control signal. .

5 is a waveform diagram of each sub-operation of FIG. 2 according to the present invention.

One preferred embodiment of the present invention will be described in detail with reference to FIGS. 4 to 5 described above.

The vertical synchronizing polarity converting unit 30 inputs a vertical synchronizing signal and inverts or non-inverts the output of the vertical synchronizing signal into a vertical synchronizing signal having a falling edge in accordance with the synchronizing signal polarity detection signal. The horizontal synchronizing polarity converting unit 32 inputs a horizontal synchronizing signal and inverts or non-inverts the output of the horizontal synchronizing signal into a horizontal synchronizing signal in the form of a falling edge according to the synchronizing signal polarity detection signal. That is, as a result of the polarity determination, the vertical synchronization of the rising type is inverted and output, and the horizontal synchronization signal of the falling type is non-inverted and output. For example, if the vertical synchronizing signal and the horizontal synchronizing signal are the same as those of FIGS. 5A and 5B, the vertical synchronization polarity converting unit 30 inverts the vertical synchronizing signal as shown in FIG. The horizontal synchronization polarity converting unit 32 non-inverts the horizontal synchronization signal as shown in FIG. 5 (5D). The first to second falling edge detectors 34 and 36 may include the falling edges of the vertical and horizontal synchronization signals output from the vertical and horizontal synchronization polarity conversion units 30 and 32 in FIGS. 5H) and outputs the falling edge detection signal to the first to second sync pulse duration setting sections 38 and 40, respectively. At this time, the vertical pulse section setting section 38 includes a counter and a decoder to start counting by receiving the falling edge detection signal from the first falling edge detection section 34, and then start vertical counting by the synchronous pulse section adjustment signal. The counting is stopped at a point where 1H = 800T (T = 25, 1MHz period) to generate a vertical synchronous pulse setting control signal as shown in FIG. 5 (5F) and applied to the reset terminal R of the flip-flop 42. do. At this time, the first flip-flop 42 is reset by the vertical synchronous pulse setting control signal as shown in FIG. 5F (F) output from the vertical pulse section setting unit 38, and thus as shown in FIG. Output vertical sync pulse.

In addition, the horizontal pulse section setting unit 40 is composed of a counter and a decoder to start counting by receiving the falling edge detection signal from the second falling edge detector 36 and the horizontal synchronous pulse section m = 96T by the synchronous pulse section adjustment signal. The counting is stopped at the in point to generate a horizontal synchronizing pulse setting control signal as shown in FIG. 5 (5I) and applied to the reset terminal R of the flip-flop 44. At this time, the second flip-flop 44 is reset by the vertical synchronous pulse setting control signal output from the vertical pulse section setting unit 40 to output horizontal synchronous pulses as shown in FIG. Here, the synchronous pulse section adjustment signal can be used for the convenience of the designer by changing and adjusting the l and m values of the vertical and horizontal synchronous pulse sections as necessary. In addition, since the waveform-shaped vertical and horizontal synchronous signals all have a shape of a falling edge and a constant low interval, the timing is always based on the falling edge of the synchronization signal when various control signals are generated in the LCD driving controller 14 as shown in FIG. It can be applied to all the various types of synchronization signals by using this.

As described above, the present invention inputs various types of vertical and horizontal synchronous signals to form a waveform into vertical horizontal synchronous signals of a certain type and provides them to the LCD driving controller, so that the timing of the control signal needs to be changed according to various synchronization signals. There is no advantage to simplify the hardware of the LCD controller.

Claims (5)

A display device using an LCD, comprising: a vertical synchronous polarity converting unit for inputting a vertical synchronous signal and converting the synchronous signal polarity detecting signal into a vertical synchronous signal in the form of a falling edge; and detecting a synchronous signal polarity by inputting a horizontal synchronous signal A horizontal synchronous polarity converting unit converting a horizontal synchronous signal in the form of a falling edge by a signal, a falling edge detecting unit detecting a falling edge of vertical and horizontal synchronous signals outputted from the vertical and horizontal synchronous polarity converting units, and the falling edge detecting unit A synchronous pulse section setting unit which receives the edge detection signal detected from the signal and starts counting and generates vertical and horizontal synchronous pulse section setting control signals according to the pulse section adjustment signal, and receives the edge detection signal detected by the falling edge detector. Vertical and horizontal waveform shaping by vertical and horizontal synchronous pulse section control signal Synchronization for LCD drive control for multimedia, characterized in that the shaping constituted by sync pulse output for outputting a signal shaping circuit gisinho. The method of claim 1, wherein the falling edge detector comprises: a first falling edge detector for detecting a falling edge of the vertical synchronization signal output from the vertical synchronization polarity conversion unit, and a horizontal synchronization signal output from the horizontal synchronization polarity conversion unit; A synchronization signal shaping circuit for controlling LCD driving for multimedia, characterized in that it comprises a second falling edge detector for detecting a falling edge. The vertical pulse section setting method according to claim 2, wherein the synchronous pulse section setting unit starts counting by receiving the edge detection signal detected by the first falling edge detector and generates a vertical synchronous pulse section setting control signal by a pulse section adjustment signal. And a horizontal pulse section setting section for receiving the edge detection signal detected by the second falling edge detector and starting counting to generate a horizontal synchronous pulse section setting control signal by a pulse section adjustment signal. Signal shaping circuit. 4. The method of claim 3, wherein the shaped synchronous pulse output unit receives the edge detection signal detected by the first falling edge detector and outputs a vertically shaped vertical synchronous signal having a predetermined waveform by the vertical synchronous pulse section setting control signal. And a second flip flop that receives an edge detection signal detected by the second falling edge detector and outputs a horizontal shaped signal having a predetermined waveform by the horizontal synchronization pulse section setting control signal. Synchronization signal shaping circuit for multimedia LCD drive control. A display method using an LCD, the method comprising inputting various types of vertical and horizontal synchronous signals and converting them into vertical and horizontal synchronous signals in the form of falling edges by the synchronization signal polarity detection signal; Detecting a polling edge of the signal; receiving counting of the detected edge detection signal; starting counting to generate vertical and horizontal synchronization pulse interval setting control signals according to a pulse interval adjustment signal; and detecting the detected edge detection signal. And outputting vertical and horizontal synchronous signals having a predetermined waveform by a vertical and horizontal synchronous pulse section setting control signal.