KR920010341B1 - Method for controlling pdp module and the device - Google Patents

Abstract

The method is for controlling plasma display panel module to display multi-gray levels so that the PDP module is applied to a display of microcomputer. The method comprises the steps: (A) modulating horizontal and vertical synchronous signal to match type with PDP drive circuit; (B) generating gray level signal by combining color signal transmitted from a display controller of microcomputer; and (C) controlling the PDP module drive circuit according to gray level signals.

Description

PDP module control method and device

1 is a block diagram showing a control device of a PDP module according to the present invention;

2 is a circuit diagram showing an example of the configuration of the color signal combination section in FIG.

3 is a logic expression of the circuit of FIG.

* Explanation of symbols for the main parts of the drawings

10: buffer 20: vertical synchronization matching unit

30: horizontal synchronization batch 40: color signal combination

50: gray scale formation controller 60: shift clock pulse generator

PC: Micro Computer CRTC: Display Control Unit

PDP: PDP Module DRIV: Drive Circuit

The present invention relates to a method of manufacturing a plasma display panel (PDP) module and a device thereof, and more particularly, to a control method of a PDP module suitable for use as a display device such as a computer and a device suitable for implementing the same.

Plasma display, also called gas discharge display and abbreviated as PDP, is arranged by arranging X and Y electrode groups in a matrix with a discharge gap filled with gas such as neon. It is a type of flat panel display that displays an image by scanning data at intervals of. This plasma display device has many characteristics that are desirable as a flat panel display device, such as easy discharge control, high durability, high resolution, especially small thickness, low cost, and easy to enlarge, and thus, MIXIE tube or segment The application area is gradually spreading from a so-called wall-mounted TV from an indicator.

A recent application of this plasma display device is its use as a monitor of a computer, which has a great advantage especially as an ultra-thin monitor of a lap-top computer. However, in such a conventional PDP monitor, the gray scale of one pixel is expressed only by two gray scales of on / off by 1 bit of video information. I could not get a delicate and clear picture. In addition, since the PDP module in practical use is almost impossible to display monochrome, such display gradation is a serious weak point for an image display device compared to a conventional CRT (Cathode Ray Tube).

On the other hand, in the general computer or microprocessor, the CRT is mainly used as an image display device. Since the driving method is different from that of the CRT, the PDP module cannot be connected to an image display device such as a microcomputer. It could only be used in a conventional microcomputer.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and provides a control method of a PDP module that can be used as a display device of a general microcomputer and can display a plurality of gradations.

Another object of the present invention is to provide a control apparatus of a PDP module suitable for implementing the above-described control method.

In order to achieve the above object, the control method of the PDP module according to the present invention selectively adds the image information input to the pixels formed by the X electrode group and the Y electrode group arranged in a matrix to add an image. A method of interfacing a PDP module having a driving circuit for displaying to a microcomputer having a display control unit for outputting a video signal including a predetermined bit of color information and vertical and horizontal synchronization signals, the microcomputer interfacing the microcomputer. Converts the vertical and horizontal synchronous signals outputted from the display control unit to match the driving circuit with the display control unit, and combines the color information outputted from the display control unit to form a gradation signal corresponding to the gradation to be displayed. Displaying an image having a plurality of gray levels by controlling the driving circuit according to the gray level signals. It characterized.

A control device of the PDP module according to the present invention suitable for carrying out such a method includes a driving circuit for selectively displaying image information input to pixels of the X electrode group and the Y electrode group arranged in a matrix to display an image. An apparatus for interfacing a PDP module to a microcomputer having a display control unit for outputting a video signal including color information of a predetermined bit and a vertical and horizontal synchronization signal, the apparatus comprising: receiving a vertical and horizontal synchronization signal output from the display control unit; A vertical and horizontal synchronous matching unit for converting each of the driving circuits to provide a reference pulse of the driving circuit, and a color signal combination unit for forming a plurality of bit gray level signals corresponding to the gray levels to be displayed by combining color information output from the display control unit; And forming a plurality of gray levels of the driving circuit according to the manufacturing signal output by the color signal combination unit. And a gradation forming control unit for controlling the lock.

Hereinafter, the present invention will be described in more detail by explaining a preferred embodiment of a control device of a PDP module according to the present invention with reference to the accompanying drawings.

The control apparatus of the PDP module according to the present invention shown in FIG. 1 is a three-bit color information and vertical synchronous signal of R, G, B output from the display control unit DRTC of the microcomputer PC. A buffer for buffering Vs and the horizontal synchronization signal Hs, and converting the vertical synchronization signal Vs and the horizontal synchronization signal Hs, respectively, to the vertical and horizontal reference pulses of the PDP module PDP. By providing (vs, hs), the vertical synchronization matching unit 20 and the horizontal synchronization matching unit 30 for matching the PDP module PDP to the microcomputer PC, and R, G buffered and output from the buffer 10 And the color signal combination unit 40 which combines the 3-bit color information of B to form 2-bit gray level signals Q1 and Q2, and the driving circuit DRIV is not shown in accordance with the gray level signals Q1 and Q2. And a gradation forming control section 50 for controlling the non-XY electrode group matrix to display an image with a plurality of gradations.

Here, the configuration of the manufacturing formation control unit 50 depends on the type and control method of the PDP module (PDP), for example, the discharge current control method, discharge pixel increase or decrease method or pulse width modulation method, duty cycle (duty cycle) cycle) control method. Here, it will be described as a duty cycle control method that can be applied to any type of PDP module such as AC type, DC type, memory type, or refresh type.

In this case, the duty cycle is a non-operation time between a predetermined pixel and a non-operation time. In this case, a vertical or horizontal (time assuming horizontal scanning) sync synchronization unit 20 and 30 may include one horizontal scanning timing between the pixels or the same. The shift clock pulse forming unit 60, which forms a shift clock pulse SK in which the Y electrode group is divided by the number of electrodes, is connected.

Here, as an example of the configuration of the color signal combination unit 40, as shown in FIG. 2, the four AND gates A1 to A4, the inverter I, and the two OR gates 01 to 02 are combined. 3, the input color information is 3 bits of R, G, and B, and the gray level signal outputted on the assumption that the gray level to be displayed and output is 4 gray levels is 2 bits of Q1 and Q2. Explain. If the input color information is 4 bits including the intensity information, the display output gray scale may be increased, but in the case of monochrome display output, the gray scale is sufficient.

The operation of the PDP module control apparatus according to the present invention having the above-described configuration will be described below.

First, the R, G, and B color information output from the display control unit CRTC of the microcomputer PC and the image signals such as the vertical and horizontal synchronous signals Vs and Hs are input to the buffer 10 and buffered. The synchronization signal Vs and the horizontal synchronization signal Hs are output to the vertical synchronization matching 20 and the horizontal synchronization matching unit 30, respectively.

The vertical and horizontal synchronous matching units 20 and 30 convert the waveforms, polarities, and pulse periods so that the input vertical and horizontal synchronous signals Vs and Hs are suitable for the PDP module PDP. (vs, hs) is formed and output to the driving circuit DRIV.

The three bits of color information R, G, and B separated from the buffer 10 are input to the color signal combination unit 40, and two bits form gray level signals Q1 and Q2. For example, the color information R When, G, B) = (1,1,1), the gradation signal (Q1, Q2) = (1,1) becomes high brightness and (R, G, B) = (1,1,0) If (Q1, Q2) = (0, 1), the first intermediate luminance, (R, G, B) = (1, 0, 1), and (Q1, Q2) = (1, 0) When the intermediate luminance, (R, G, B) = (0, 0, 0), it becomes low luminance or zero luminance.

When the PDP module (PDP) is a horizontal scan type, the horizontal reference pulse hs branched from the horizontal synchronous matching unit 30 is input to the shift clock pulse forming unit 60, and the shift clock pulse forming unit 60 refers to this. As a result, the number of pixels per horizontal scanning line, for example, 640 clock pulses are formed, and the shift clock pulse SK in which the horizontal reference pulse hs and the clock pulse are combined is input to the gray scale formation control unit 50. Here, for example, when the duty cycle of each pixel of the PDP module PDP and the ratio of the discharge on / off time of the pixels are a predetermined ratio, the gray scale formation controller 50 may generate a control signal S that increases or decreases the discharge on time of the pixel. By forming a plurality of gray scales by using the afterimage effect given to human vision, the details thereof are general configurations and operations, and thus description thereof will be omitted.

As described above, according to the present invention, the PDP module can be used not only as an ultra-thin display device of a general micro computer, but also as a single color display PDP module, which can be displayed in multi-gradation according to the color information output from the micro computer. There is an advantage that a clear image can be obtained.

In particular, the present invention has various applications such as being compatible with CRT as a large all-optical display panel controlled by a microprocessor utilizing the advantages of a large-sized PDP.

Claims (4)

A PDP module having a drive circuit for displaying an image by selectively addressing image information input to pixels of an X electrode and a Y electrode arranged in a matrix, comprising a color information of predetermined bits and vertical and horizontal synchronization signals. A method for interfacing a microcomputer having a display control unit for outputting an image signal, the method comprising: converting vertical and horizontal synchronization signals output from a display control unit of the microcomputer to match the driving circuit with the display control unit, and display control unit A method of controlling a PDP module, characterized by forming a gradation signal corresponding to a gradation to be displayed by combining the color information outputted from the display, and controlling the driving circuit according to the gradation signal to display an image having a plurality of gradations. . The method of claim 1, wherein the PDP module is a scan type and the gray level signal controls the duty cycle of the PDP module. A PDP module having a drive cycle for selectively displaying the image information input to the pixels of the X electrode group and the Y electrode group arranged in a matrix to display an image, and includes color information of predetermined bits and vertical and horizontal synchronization signals. An apparatus for interfacing to a microcomputer having a display control unit for outputting an image signal, the apparatus comprising: vertical and horizontal synchronization matching units for converting vertical and horizontal synchronization signals output from the display control unit to provide reference pulses of the driving circuit, respectively; And a color signal combination unit that combines the color information output from the display control unit to form a plurality of gray level signals corresponding to the gray level to be displayed, and the driving circuit according to the gray level signal outputted by the color signal combination unit. PDP, characterized in that it comprises a gradation forming control unit for controlling to form a gradation Controller of the module. The PDP module according to claim 3, wherein the PDP module is a horizontal scan type, and a shift clock pulse forming unit for forming a shift clock pulse provided to the gray scale forming control unit is connected to either the vertical or horizontal synchronous matching unit. Module's control unit.

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