KR100213278B1 - Sustaining pulse setting method for brightness control of plasma display panel - Google Patents

Abstract

The present invention relates to a sustain pulse setting method for adjusting a luminance of the PDP display device by generating a predetermined number of sustain pulses in each subfield in a PDP display device having a subfield of M (M: positive integer). A first step of converting a signal for setting the brightness of the selected level among the N (N: positive integer) brightness levels into a digital signal; A second step of generating a unique point signal based on the digitally converted luminance level and the number of the K (1 ≦ K ≦ M, K: positive integer) th subfields; The number of sustain pulses having one to one correspondence to the N luminance levels and one to one correspondence to the M subfields is stored in each of the regions. The generated point signal is input to the stack 130 storing the addresses of the ROM 140 where the number of pulses is smaller than the number of sustain pulses in the luminance level region. A third step of outputting a predetermined address for the ROM 140; And a fourth step of reading the number of sustain pulses stored at the address output in the third step among the number of sustain pulses stored in the ROM 140. Therefore, the present invention has the effect that the user can arbitrarily adjust the brightness level of the PDP display device.

Description

Setting method of holding pulse for adjusting brightness of PDDP

1 is a view for explaining a sustain pulse setting method for adjusting the brightness of a PDP according to a preferred embodiment of the present invention.

2 is a diagram for explaining addressing and sustaining one subfield according to a conventional method.

* Explanation of symbols for main parts of the drawings

110: control switch 115: A / D conversion section

120: pointer 130: stack

140: ROM

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a PDPMA display device, hereinafter abbreviated as PDP, and more particularly to a PDP in order to adjust the number of sustain pulses corresponding to each subfield in response to an operation signal from the outside. A sustain pulse setting method for adjusting the luminance of a (PDP).

Among various display devices that are applied to various fields, cathode ray tubes (hereinafter abbreviated as CRT) are used in many fields, which are capable of clear display and colorization, simple operation, and low manufacturing cost. However, since the CRT itself has a structure of a Frasco type, it is large in size, requires a high operating voltage of approximately 10,000V, and has a big disadvantage of display distortion.

Therefore, there is a strong demand for the emergence of a display device that can replace the above CRT, and research on a so-called flat display device having a large display area and a small volume has been continuously conducted in many fields related thereto.

On the other hand, the flat display device as described above includes active elements such as ELECTRO LUMINESCENCE, LIGHT EMITTING DIODE, PDP, LIQUID CRYSTAL DISPLAY, ELECTRO CHROMIC, etc. DISPLAY) and the like, and the present invention relates to a display device using a PDP which is substantially one of the active elements.

For reference, one of the advantages of the AC PDP is that the PDP display device has a memory function for sustaining discharge when the input pulse is input once, and the display points are defined in a matrix structure, so that there is no distortion of the image and the emission frequency is increased. There is no flicker because it is high at 50-100kHz. In addition, AC PDP has a flat structure, which is advantageous for miniaturization, and because it uses a material that reduces the extinguishing caused by discharge on the surface of the dielectric layer that is in contact with the discharge, the life is long, and the panel structure mainly composed of the glass plate is used to slide the semi-fixed information as a slide. It is possible to superimpose on the slide to be projected, which is advantageous in the simplification.

Meanwhile, the PDP display apparatus reconstructs the image data corresponding to one field into a plurality of subfields, as shown in FIG. 2, in order to determine the brightness grade of the image data displayed in each unit cell, that is, to perform gradation processing. After addressing all the horizontal lines (T1 section in FIG. 2), sustain them (T2 section in FIG. 2).

In this case, the brightness of the PDP display device is determined based on the number of sustain pulses in the sustain period (T2 section in FIG. 2). If the number of sustain pulses is large, the brightness of the PDP display device can be increased, and the number of sustain pulses is small. In this case, the luminance of the PDP display device can be lowered.

Accordingly, the present invention has been devised in view of the above-described point, and setting the sustain pulse for brightness control of the PDP which can set the number of sustain pulses according to each preset subfield based on the viewer's operation signal. The purpose is to provide a method.

In order to achieve the above object, the present invention relates to a sustain pulse setting method for adjusting a luminance of the PDP display apparatus by generating a predetermined number of sustain pulses in each subfield in a PDP display apparatus having M subfields: A first step of converting a signal for setting the brightness of the selected level into a digital signal among the N brightness levels; Generating a unique point signal based on the digitally converted luminance level and a number of a K-th subfield; The number of sustain pulses having one to one correspondence to the N luminance levels and one to one correspondence are stored in each of the M subfields. The generated point signal is input to a stack that stores respective addresses of the ROM in which a pulse number is smaller than the number of sustain pulses in the luminance level region, so that a predetermined address for the ROM is output from the stack. A third step of doing; And a fourth step of reading the number of sustain pulses stored in the address output in the third step among the number of sustain pulses stored in the ROM.

The above and other objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

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

FIG. 1 is a diagram illustrating a method of setting a sustain pulse for adjusting luminance of a PDP according to a preferred embodiment of the present invention. The control switch 110, the A / D converter 115, and the pointer 120 are illustrated in FIG. , Stack 130 and ROM 140.

Referring to FIG. 1, the control switch 110 is configured to select N (N: positive integer) brightness levels, and a user manipulates the control switch 110 to provide a predetermined brightness level, for example. For example, when the L (1 ≦ L ≦ N, L: positive integer) th luminance level is selected, the adjustment switch 110 outputs the selected luminance level signal.

The luminance level signal output from the adjustment switch 110 is an analog signal, and the analog luminance level signal is provided to the A / D converter 115. The A / D converter 115 converts the analog luminance level signal into a digital signal and provides it to the pointer 120.

The L-th luminance level signal converted into digital and a predetermined subfield number are input to the pointer 120.

Here, it is assumed that there are M (M: positive integers) subfields, and among them, the subfields input to the pointer 120 are K (1 ≦ K ≦ M, K: positive integers).

On the other hand, the ROM 140 has N regions corresponding to N luminance levels one-to-one, and the number of sustain pulses set in one-to-one correspondence to the M subfields is stored in each region. At this time, in the same subfield, the number of sustain pulses stored in the low luminance level region is relatively smaller than the number of sustain pulses stored in the high luminance level region. For example, the number of pulses of the sustain pulses of the sixth subfield stored in the first luminance level (low luminance level) region is maintained in the sixth subfield stored in the third luminance level (high luminance level) region. It has a smaller value than the pulse number of pulses.

In addition, as shown in FIG. 1, each address of the ROM 140 is stored in the stack 130 in the form of a lookup table corresponding to N luminance levels and M subfields. For example, if N = 16 and M = 6, the size of stack 130 is 16 * 6 = 96.

Therefore, when the L-th luminance level signal and the subfield number K are input, the pointer 120 receives the K-th subfield in the L-th luminance level region of the ROM 140 among the addresses stored in the stack 130. It generates a unique point signal specifying the address of the ROM 140 in which the number of sustain pulses is stored. At this time, for example, when M = 6 and the L th luminance level signal and the subfield number K are input to the pointer 120, the point signal generated by the pointer 120 has a value of 6 * L + K.

The point signal generated by the pointer 120 is input to the stack 130, so that the stack 130 stores the number of sustain pulses for the K-th subfield in the L-th luminance level region of the ROM 140, for example. Print the address.

It is input to the address ROM 140 generated in the stack 130. Thus, the ROM 140 outputs the number of sustain pulses for the K-th subfield in the L-th luminance level region, for example, in response to the address provided from the stack 130.

Therefore, according to the present invention, the luminance level of the PDP display apparatus can be arbitrarily adjusted by the user based on the number of set sustain pulses read from the ROM 140.

Claims (1)

A PDP display device comprising M (M: positive integer) subfields, the sustain pulse setting method of adjusting a luminance of the PDP display device by generating a predetermined number of sustain pulses in each subfield; A first step of generating a signal for setting a luminance level selected by a user among N (N: positive integer) luminance levels and converting the signal into a digital signal; A second step of generating a unique point signal based on the digitally converted luminance level and the number of the K (1 ≦ K ≦ M, K: positive integer) th subfields; The number of sustain pulses having one to one correspondence to the N luminance levels and one to one correspondence to the M subfields is stored in each of the regions. The generated point signal is input to the stack 130 storing the addresses of the ROM 140 where the number of pulses is smaller than the number of sustain pulses in the luminance level region. A third step of outputting a predetermined address for the ROM 140; And a fourth step of reading the number of sustain pulses stored in the address output in the third step among the number of sustain pulses stored in the ROM 140 from the ROM 140. Method of setting the sustain pulse for adjusting the brightness of the PDP.