DE3530948A1 - Method of representing points of light on a matrix-addressed flat picture display device - Google Patents

Abstract

The invention concerns a method of representing disproportionately bright points of light on a matrix-addressed flat picture display device. For this purpose: - A digitised video signal (VS) is fed to a digital comparator (K), which outputs a signal (S) when a specified signal level is exceeded. - A control pulse (SI) is generated, using a memory circuit (SP), beginning on the line synchronising pulse following the first occurrence of the comparator signal (S). - The control pulse (SI) is switched off at the end of the line selection time, as soon as the comparator signal (S) is no longer present. The method according to the invention is used in flat (plasma) screens. <IMAGE>

Description

The invention relates to a method for displaying of disproportionately bright highlights on a matrix addressed flat image display device.

In DE-OS 32 35 894 is a flat color image reproduction device described with the following structure: electrons, that are created in a back room get through selectively opened holes in an electrode matrix (lines ladder, column ladder) in a front room in which they one after the other on phosphor strips of different bases ben are distracted. The deflection system consists of elec treads, each between two side by side Column ladders run and in the manner of interlocking combs to a first or second voltage source are led, with the result that neighboring electrons rays are deflected in opposite directions. The information is written sequentially, in such a way that that neighboring columns the color separation signals of their Obtain white point information in reverse order The phosphor stripes are in the usual rows follow, for example according to the scheme red-green-blue, arranged.

The problem is that with matrix addressed picture shield a line-sequential information display he follows. With brightness control through pulse duration mod lation is an exploitation of the pulse duration for generation very bright parts of the picture are undesirable, because then for the norma le image display control pulses that are too short are required are. An individual amplitude modulation to increase the luminance is possible, but requires a large one  Effort in the column levels by switching several Voltage level and additional memory requirements in the Column drive IC's.

The object of the invention is to overcome these disadvantages to avoid using a matrix addressed screen to be able to display disproportionately bright highlights, like that with cathode ray tubes by non-linear control of the video output stages is possible.

This object is achieved by a method for Representing highlights on a matrix addressed Image display device having the features of claim 1 solved.

The control impulse has two tasks:

• a) The information data is increased by a certain factor, preferably reduced to a multiple of two. Single Lich those data for which the comparator speaks remain unchanged.
• b) The current or one of the control voltages of the screen are increased so that the brightness reduction in the Areas of rows with reduced data removed becomes. In the end, all the pixels that are over a certain brightness value, with a around shown a certain factor increased luminance. Only the pixels of the first line in which the Comparator responds are displayed unchanged.

Further advantageous embodiments of the invention are Ge subject of additional claims 2 and 3.

The invention is based on a in the figures of the drawing voltage illustrated embodiment explained further. It shows

Fig. 1 of the embodiment, the control circuit and

Fig. 2 shows the time course of the signals of the circuit of FIG. 1.

In the embodiment shown in FIGS . 1 and 2, the digital video signal VS (with color reproduction, the green signal) goes to the one input port of a digital comparator K. The second input is permanently set to a certain value. If the signal exceeds the comparison value, the comparator output goes from logic "0" to logic "1". The reference symbol ( 1 ) in parentheses represents a data bit and ( 2 ) a possible course of the signal S of the comparator output voltage. A monostable multivibrator KS suppresses short glitches together with the G gate. A "0" appears at the output of gate ( 3 ) as long as the input signal exceeds the comparison value. A flip-flop F ₁ is set and reset with the trailing edge ( 4 ) of the next horizontal sync pulse ( 5 ). The first reset edge of F ₁ brings a second flip-flop F ₂ to "1". A NAND gate NG ₁ links the H sync and the inverted output of F ₂ . The signal ( 7 ) shows that an inverted H-Sync appears at the output of NG ₁ if F _{2 was} not set. This signal is used to reset F ₂ . This happens if, after the occurrence of a signal ( 3 ) in the following line, there is no video signal exceeding the comparison value. Signal ( 6 ) represents the time course of the output voltage of F _2. This signal SI is now used to increase the screen brightness. It is also linked to the output of gate G via a NAND gate NG ₂ . The output of this gate goes to a data selector. If e.g. B. a doubling of the peak brightness should be achieved as soon as the video signal exceeds the comparison value, the video signal must be reduced to half within the relevant line. Only in the places with full brightness no reduction is allowed. This can be done via a data selector DS , the inputs of which are switched so that when the "1" is applied to the control input, the video data lines appear unaffected at the output, at "0" the data words are shifted by one position to the right, which is one Division with two matches. The combination in the NAND gate NG ₂ ensures that the control level ( 8 ) within the line with pixels to be displayed brighter is at "0", but a "1" is present as soon as the pixels reach peak brightness. The output of F ₂ can now be used to increase the cathode current or one of the operating voltages.

Claims (3)

1. A method for displaying disproportionately bright highlights on a matrix-addressed flat image display device, characterized in that a digitized video signal (VS ) is fed to a digital comparator (K ) which emits a signal (S) when a certain signal level is exceeded, that with a memory circuit (SP) a control pulse (SI) is generated which begins with the line sync pulse following the first occurrence of the comparator signal (S) , and that the control pulse (SI) is switched off at the end of the line selection time as soon as no comparator signal ( S) more occurs. 2. The method according to claim 1, characterized in that the green signal is used in a color representation as a digitized video signal (VS) . 3. The method according to claim 1 or 2, characterized in that to suppress interference pulses the digital comparator (K) is followed by a monostable multivibrator (KS) with which only signals from a certain duration are processed.