KR0159817B1 - Automatic brightness compensation method using micom - Google Patents

Abstract

The present invention relates to an automatic luminance compensation method using a microcomputer that detects a frequency of an input vertical synchronization signal and adjusts the brightness of the luminance according to the frequency to automatically compensate for the luminance.

The present invention provides an automatic luminance compensation method for a cathode ray tube capable of multi-mode processing from a system, comprising: a first process of determining a current mode by detecting a vertical synchronization signal input from a system; and a multi-mode stored in a memory. A second process of reading the RGB gain data of the determined mode among the RGB gain data, and comparing the currently input vertical sync signal with the vertical sync signal according to the determined mode, and corresponding to the determined vertical sync signal; A third process is provided by modulating and outputting the pulse width so that the RGB gain data is automatically compensated for the data of the vertical synchronization signal.

Accordingly, the present invention automatically corrects the luminance of the cathode ray tube using a microcomputer. In the conventional ABL system, the current flowing through the FBT is increased such that the brightness of the screen is increased while the secondary current of the FBT becomes smaller than the prescribed value. By solving the problem that occurs when there are many differences depending on the pattern even at the same timing, there is an effect of more optimally correcting (adjusting) the luminance of the cathode ray tube.

Description

Automatic luminance compensation method using microcomputer

1A is a block diagram of a luminance compensation circuit to which the present invention is applied;

(b) is an internal block diagram of the microcomputer of (a),

2 is a procedure showing the control method according to the present invention.

* Explanation of symbols for main parts of the drawings

10: system 20: microcomputer

30: video preamplifier 40: video main amplifier

50: CRT

The present invention relates to a luminance compensation method of a cathode ray tube, and more particularly, by detecting the frequency of the input vertical synchronization signal to adjust the brightness of the brightness according to the frequency to automatically compensate for the brightness, under the control of the microcomputer The present invention relates to a method for automatically compensating luminance using enabled microcomputer.

In the conventional luminance adjustment (or compensation) method, especially in a monitor operating in a multi-mode, the intensity of the beam current different according to the different operating frequency by each mode using a microprocessor in the feedback line of the high voltage circuit. By adjusting, there is a method of adjusting ABL of a multimode cathode ray tube (particularly a monitor) which can have a stable luminance signal according to an operation mode, thereby reducing damage and improving quality of the cathode ray tube (CRT).

In addition, in the ABL adjustment method, a different current is induced in the secondary side of the flyback trans (FBT) according to each mode, and at this time, the current flowing in the secondary side is fed back to the controller controlling the FBT. The controller which detects the variation (decrement) of the secondary side current of the FBT fed back and inputs performs a PWM (pulse width modulation) output corrected to the primary side of the FBT. Therefore, the luminance is appropriately compensated.

In other words, the conventional luminance compensation method adjusts (compensates) the luminance by adjusting the current on the secondary side of the FBT in hardware. That is, the brightness of the brightness is adjusted by the strength of the current.

However, in such a method, the luminance is not compensated by the above-described adjustment when the current flowing through the FBT has a large difference depending on the pattern even at the same timing.

For example, the brightness of the screen may increase as the secondary current of the FBT becomes smaller than a prescribed value. This is because the luminance increases when the frequency of the vertical synchronization signal increases, and the luminance decreases when the frequency of the vertical synchronization signal decreases.

In other words, in a cathode ray tube, even if the system (computer) mode is changed, there is no difference in luminance, which is a good monitor.

The present invention has been made in view of the above problems, and an object of the present invention is to detect the frequency of the vertical synchronization signal input through the microcomputer, and to adjust the brightness of the cathode ray tube based on the information according to the frequency of the detected vertical synchronization signal. An object of the present invention is to provide a method for automatically correcting luminance.

According to an aspect of the present invention, there is provided a method for automatically compensating a cathode ray tube for multimode processing from a system, the method comprising: a first process of determining a current mode by detecting a vertical synchronization signal input from a system; A second process of reading the RGB gain data of the determined mode among the RGB gain data according to the multi-mode stored in the memory; and comparing the currently input vertical sync signal with the vertical sync signal according to the determined mode, And a third process of modulating and outputting the RGB gain data corresponding to the determined vertical synchronization signal to be automatically compensated for the data of the vertical synchronization signal currently input.

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

1A is a block diagram of a luminance compensation circuit to which the present invention is applied, and receives the horizontal synchronizing signal H-SYNC and the vertical synchronizing signal V-SYNC output from the computer system 10, and receives the vertical synchronizing signal. The microcomputer 20 detects an input frequency of the input signal, and variably modulates an output pulse width of an RGB gain in comparison with a predetermined vertical synchronization signal frequency preset in a memory, and outputs the microcomputer 20 from the microcomputer 20. A video preamplifier 30 for small signal amplification of the RGB gain signal R-Gain (G-Gain) (B-Gain), and a video for amplifying a video signal output from the video preamplifier 30. The present invention is applied to a circuit composed of a main amplifier 40 and a cathode ray tube 50 whose brightness is automatically adjusted by a video signal through the video main amplifier 40.

In addition, the microcomputer 20 is an A / D converter for converting the analog components of the horizontal and vertical synchronization signal (H-SYNC) (V-SYNC) input from the system 10 as shown in b of FIG. 21, a CPU 22 which is a signal processing source for performing central control and arithmetic operation, a ROM 23 in which rated RGB gain data according to a control program and a vertical synchronization signal according to the present invention are preset, Pulse width modulated output to automatically compensate RGB gain data to the input vertical frequency to obtain RAM 24, which is a working space, and a desired RGB gain signal (R-Gain) (G-Gain) (B-Gain) It consists of the PWM part 25 which performs the following.

In addition, it should be noted that the function of the memory ROM 23 is also possible by the memory EEPROM 26 provided outside the microcomputer 20.

Reference numeral 27 denotes control, data, and address lines.

2 is a procedure showing a control method according to the present invention, in which step S1 of detecting the pressure of the vertical synchronizing signal V-SYNC and frequency of the vertical synchronizing signal V-SYNC are detected as a result of the detection of the step S1. Is set when the frequency exceeds the predetermined frequency (70 Hz), and the preset RGB high data value is set, and the preset when the frequency of the vertical synchronization signal V-SYNC is less than the predetermined frequency (70 Hz). Setting a low representative RGB gain data value (S2), comparing the frequency of the vertical synchronizing signal (V-SYNC) with the frequency (70 Hz) (S3), and the vertical synchronizing signal ( If the frequency of V-SYNC exceeds the frequency (70 Hz), subtracting the frequency (70 Hz) from the frequency of the vertical synchronization signal (V-SYNC) to calculate a predetermined value (N) and Presetting the value (N) calculated in step S4 (S5), and the frequency of the vertical synchronization signal (V-SYNC) is less than the frequency (70Hz) In this case, subtracting the frequency of the vertical synchronization signal V-SYNC from the frequency 70 Hz to calculate a predetermined value n (S6) and presetting the value n calculated in the S6 step. (S7) and outputting the preset RGB data in RGB gain (S8).

The present invention configured as described above will be described in more detail below.

First, the system 10 operable in the multi-mode outputs the horizontal synchronous signal H-SYNC and the vertical synchronous signal V-SYNC output to the microcomputer 20 at a predetermined frequency according to the mode. At this time, the microcomputer 20 detects the vertical synchronization signal output from the system 10 through the A / D converter 21 (step S1). Therefore, the frequency of the vertical synchronization signal currently input is detected, the mode is determined, and the determination is made among the RGB gain data according to the frequency of the vertical synchronization signal preset in the memory ROM 23 or the EEPROM 26. Read the RGB gain data of the corresponding mode. Therefore, when the frequency of the input vertical synchronization signal V-SYNC exceeds a predetermined frequency (70 Hz), a representative RGB gain data value of preset high is set, and the vertical synchronization signal V-SYNC is set. If the frequency is less than the predetermined frequency (70 Hz), the representative RGB gain data value of the preset low is set under the control of the CPU 22 (step S2).

In addition, the vertical synchronization signal (V-SYNC) to detect the frequency of the vertical synchronization signal (V-SYNC) detected by the A / D converter 21 and the preset vertical synchronization signal in the memory (ROM or EEPROM) V-SYNC) and the frequency (70Hz) is compared (step S3).

If the frequency of the currently input vertical synchronization signal V-SYNC is greater than the frequency 70 Hz, the predetermined frequency N is calculated by subtracting the frequency 70 Hz from the frequency of the vertical synchronization signal V-SYNC. After that, the calculated value N is preset as a variable for compensating for luminance (steps S4 and S5).

In addition, if the frequency of the vertical synchronization signal V-SYNC currently input is less than the frequency 70 Hz, the frequency of the vertical synchronization signal V-SYNC is subtracted from the frequency 70 Hz to a predetermined value n. ) Is calculated and preset as the variable for compensating for luminance (steps S6 and S7).

And, using the RGB gain data corresponding to the frequency of the preset vertical synchronization signal, to be automatically compensated for the frequency data of the current vertical synchronization signal input through the A / D converter 21 of the microcomputer 20 A predetermined pulse width modulation output is performed by the PWM unit 25, and the RGB gain signal R-Gain (G-Gain) (B-Gain) corrected by the PWM unit 25 is output. RGB gain signal (R-Gain) (G-Gain) (B-Gain) is automatically adjusted (corrected) the brightness of the cathode ray tube 50 through the video preamplifier 30 and the video main amplifier 40 do.

As described above, the present invention automatically corrects the luminance of the cathode ray tube by using a microcomputer. In the conventional ABL system, the luminance of the screen increases as the secondary current of the FBT becomes smaller than a prescribed value, By solving the problem that occurs when the difference is large depending on the pattern even at the same timing, the brightness of the cathode ray tube can be more optimally corrected (adjusted).

Claims (3)

A method for automatically compensating a cathode ray tube for multimode processing from a system, the method comprising: a first process of determining a current mode by detecting a vertical synchronization signal input from a system; and RGB gain data according to a multimode stored in a memory A second process of reading the RGB gain data of the determined mode, and comparing the currently input vertical synchronization signal with the vertical synchronization signal according to the determined mode, and obtaining the RGB gain corresponding to the determined vertical synchronization signal. And a third process of modulating and outputting the pulse width so as to automatically compensate the data to the data of the vertical synchronization signal currently input. 3. The method of claim 2, wherein the first to second processes are performed by detecting an input of the vertical synchronization signal V-SYNC, and the frequency of the vertical synchronization signal V-SYNC is a predetermined frequency (70 Hz). Representative RGB gain data value of preset-high when exceeding < RTI ID = 0.0 >) < / RTI > and a representative of preset-low when the frequency of vertical synchronization signal V-SYNC is less than a predetermined frequency (70 Hz). A luminance automatic compensation method using a microcomputer comprising the step (S2) of setting the RGB gain data value. The method of claim 1, wherein the third process includes comparing the frequency of the vertical synchronization signal V-SYNC with the frequency 70 Hz, and the frequency of the vertical synchronization signal V-SYNC is equal to the frequency. When exceeding (70 Hz), calculating the predetermined value (N) by subtracting the frequency (70 Hz) to the frequency of the vertical synchronization signal (V-SYNC) (S4) and the value calculated in the step S4 ( In step S5, when the frequency of the vertical synchronization signal V-SYNC is less than the frequency 70 Hz, the frequency of the vertical synchronization signal V-SYNC is subtracted from the frequency 70 Hz. Calculating a predetermined value (n) (S6), presetting a value (n) calculated in step S6 (S7), and outputting the preset RGB data in RGB gain (S8) Automatic brightness compensation method using the included microcomputer.