KR19990013120A - Grayscale processing apparatus and method of AC plasma display panel - Google Patents

Abstract

The present invention provides a gradation processing apparatus and method for an AC plasma display panel in which a high quality screen is provided by performing gradation processing by varying the number of sustain pulses during the gradation processing of the plasma display panel.

To this end, the present invention, the first storage means for storing the data for the R / G / B color signal digitally converted by the analog / digital converter in a predetermined bit unit, and the optimized sustain pulse data for each bit is stored in advance Data corresponding to sustain pulses among the second storage means, counting means for counting data of each bit stored in the first storage means, and data previously stored in the second storage means based on a signal from the counting means. By selecting means for selectively outputting, it is possible to implement a gradation process after applying a floating sustain pulse to each of the color signals of each of the R / G / B in each subfield, thereby achieving a color of up to n times.

Description

Grayscale processing apparatus and method of AC plasma display panel

The present invention relates to a gradation processing apparatus and method for an AC plasma display panel, and more particularly, to a gradation processing apparatus and method for an AC plasma display panel to perform gradation processing by varying the number of sustain pulses in a fluid manner. will be.

In general, a plasma display panel is a device that displays characters or graphics by using light emitted from a plasma generated during gas discharge. The plasma display panel is a direct current type or alternating current by an electric field application driving method applied externally to make a plasma. Are divided into types.

The conventional AC plasma display panel performs gradation processing with a unique number of sustain pulses for each subfield in a frame.

That is, as shown in FIG. 1, each subfield in one frame has its own sustain pulse. The driving signal corresponding to the subfield is divided into the most significant bit (MSB) to the least significant bit (LSB) and stored in the memory unit 10. Save it.

As shown in FIG. 2, the number of sustain pulses existing in each subfield is one sustain pulse in the subfield SF 1 corresponding to the least significant bit LSB, and is directly in the upper bit. The number of sustain pulses of the corresponding subfield SF 2 is two, and the number of sustain pulses of the subfield corresponding to the immediately higher bit is twice the number of sustain pulses of the subfield corresponding to the lower bit.

In this configuration, when the most significant bit MSB is selected, the driving signal in the memory unit 10 corresponding thereto is applied to the plasma display panel driving unit 12 to determine the number of driving pulses. The gray level processing for the plasma display panel is performed by the number of.

According to the gray scale processing method of the conventional AC plasma display panel, since a unique sustain pulse is provided for each subfield in one frame, only fixed gray scale processing can be performed.

Accordingly, the present invention has been made in view of the above circumstances, and the gradation processing apparatus of the AC plasma display panel which provides a high quality screen by performing gradation processing by varying the number of sustain pulses during the gradation processing of the plasma display panel. And to provide a method.

According to a preferred embodiment of the present invention to achieve the above object, the first storage means for storing the data for the R / G / B color signal digitally converted by the analog / digital converter in a predetermined bit unit, and each bit Second storage means for storing the optimized sustain pulse data in advance, counting means for counting data of each bit stored in the first storage means, and pre-stored in the second storage means based on a signal from the counting means. There is provided a gradation processing apparatus of an AC plasma display panel having selection means for selectively outputting corresponding sustain pulse data from stored data.

The gray scale processing method of the AC plasma display panel according to the embodiment of the present invention is a process of digitally processing the input analog R / G / B color signal for each bit, and counting the data of each digital signal processed bit. And a process of providing data optimized for the corresponding bit as a sustain pulse based on the count value.

1 is a view adopted to explain a gradation processing method of a general AC plasma display panel;

2 is a diagram showing the number of sustain pulses for each subfield shown in FIG. 1;

3 is a block diagram of a gradation processing device of an AC plasma display panel according to an embodiment of the present invention;

4 is a flowchart for explaining a gradation processing method of an AC plasma display panel according to an exemplary embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

5: analog / digital converter 10: memory

12. Plasma display panel driver 15: first storage means

25: counting means (counter) 35: second storage means

45: selection unit

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

Fig. 3 is a block diagram of a gradation processing apparatus of an AC plasma display panel according to an embodiment of the present invention. The embodiment of the present invention uses an analog / digital converter 5 and an analog / digital converter 5 thereof. The first storage means 15 for storing the converted signal, the counting means 25 for counting the stored signals, the second storage means 35 in which the optimum sustain pulse data is pre-stored, and the count value based on the count value. And a selection unit 45 for selecting the sustain pulse data.

That is, the analog-to-digital converter 5 (ADC) converts an R / G / B color signal of an analog component into a digital signal.

The first storage means 15 stores the data converted by the analog-to-digital converter 5 in units of predetermined bits (for example, about 8 bits). For example, the first storage means 15 may include a memory device such as an SRAM. .

The counting means 25 counts data of each bit stored in the first storage means 15, which may be implemented as a counter for performing a normal counting function.

The second storage means 35 stores n mutually differential optimized sustain pulse data for each bit, and the second storage means 35 may be constituted by a memory element such as an EPROM. Can be.

The selector 45 selects and outputs the corresponding sustain pulse data for each bit among the data previously stored in the second storage means 35 on the basis of the signal from the counting means 25.

Next, the gradation processing method of the gradation processing apparatus of the AC plasma display panel according to the present invention configured as described above will be described with reference to the flowchart of FIG.

Once each of the R / G / B color signals of the analog component is input to the analog / digital converter 5 (step 40), the analog / digital converter 5 each of the R / G / B color signals of the input analog component After sampling / holding, the signal is quantized and converted into digital components (step 42).

The digitally converted data (e.g., 8 bits of data) is input to the first storage means 15 and stored (step 44). The digitally converted data is stored in each bit of each R / G / B color signal. (Eg, 8 bits) may be stored as different values.

Thereafter, the counting means 25 counts the data stored for each bit in the first storage means 15 and applies it to the selector 45 (step 46), and the selector 45 currently inputs the signal. For the corresponding sustain pulse among the corresponding sustain pulse data previously stored in the second storage means 35 for each bit (i.e., n mutually differential optimized sustain pulse data for each bit). Data) is selected and output (step 48). Here, the sustain pulse data output from the selector 45 is applied to the plasma display panel driver 12 (see FIG. 1) and used as data for grayscale processing.

According to the present invention as described above, up to n times the color can be realized by applying the gray level processing by applying the floating sustain pulse to each of the color signals of the R / G / B in each sub-field.

On the other hand, the present invention is not limited to the above-described embodiment, but can be modified and modified within the scope not departing from the gist of the present invention.

Claims (2)

First storage means for storing data for R / G / B color signals digitally converted by an analog / digital converter in predetermined bit units; Second storage means in which data for sustain pulses optimized for each bit is stored in advance; Counting means for counting data of each bit stored in said first storage means; And selection means for selectively outputting corresponding sustain pulse data from among data previously stored in said second storage means on the basis of the signal from said counting means. Digitally processing the input analog R / G / B color signal for each bit; Counting data of each bit processed by the digital signal; And a step of providing data optimized for a corresponding bit as a sustain pulse based on the count value.