KR100299171B1 - Monitor's Back Raster Intensity Control Circuit - Google Patents

Abstract

The present invention relates to a back raster brightness control circuit of a monitor that adjusts the brightness of a back raster for each frequency band input from a color monitor in which a deflection circuit and a high voltage circuit are integrated. A microcomputer for outputting a luminance correction signal determined for each frequency, a luminance correction unit for applying a predetermined current according to the luminance correction signal output from the microcomputer, and a video free output for outputting a luminance level according to the amount of current applied from the luminance correction unit. The luminance correction signal, which is composed of an amplifier and outputs from the microcomputer to the luminance correction unit, is configured by applying the same frequency discrimination result signal of the horizontal synchronization signal applied to the switching circuit for S-shaped correction of the horizontal deflection circuit. Backlash on the screen by calibrating the amount of current for each This has the effect that the luminance is kept constant at all times.

Description

Monitor's Back Raster Intensity Control Circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to back raster luminance correction, and more particularly, to a back raster luminance adjusting circuit of a monitor for adjusting the luminance of a back raster for each frequency band input from a color monitor in which a deflection circuit and a high voltage circuit are integrated. It is about.

In general, color monitors are supplied with power to a computer at the same time or by a separate power on / off switch. In addition, the color monitor is divided into an integrated type using a horizontal deflection circuit and a high voltage circuit and a separate type using a separate type. The integrated type has the advantage that the circuit is simpler and cheaper than the separate type.

However, according to the related art, a color monitor in which a deflection circuit and a high voltage circuit are integrally formed has a weak high voltage regulation, and thus a high voltage change occurs due to a change in load. Therefore, when the input horizontal frequency is a low frequency, the brightness of the screen appears to be somewhat low and high frequency. When it appears to be somewhat high, there is a problem that the brightness change of the back raster is severe.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to output a luminance correction signal for each frequency band of an input horizontal synchronization signal, so that a monitor can always maintain a constant luminance even when an arbitrary horizontal synchronization signal is input. To provide a back raster luminance control circuit.

In order to achieve the above object, the present invention provides a video card for outputting a video signal, a video preamplifier for outputting a luminance level for the video signal applied from the video card, and a predetermined amount of amplification of the signal output from the video preamplifier. In the brightness control circuit of the monitor comprising a video main amplifier for outputting to the cathode ray tube, when the horizontal frequency output from the video card 31 to 40kHz outputs a low signal through the first switching port and the second switching port respectively; When the horizontal frequency is 40 to 50 kHz, the high signal is output through the first switching port and the low signal is output through the second switching port. When the horizontal frequency is 50 to 60 kHz, the first switching port and the second switching port are And a cathode connected to the first switching port of the microcomputer and the microcomputer to output a high signal, respectively. A first damping diode, a first resistor connected to an anode of the first damping diode, a second damping diode having a cathode connected to a second switching port of the micom, and the second damping diode The brightness control unit further comprises a brightness adjusting unit including a second resistor connected to the anode and a variable resistor and a voltage divider resistor connected to one side of the first and second resistors connected in parallel to adjust a reference voltage. It has a feature to be applied to a video preamplifier.

1 is a back raster brightness control circuit diagram of a monitor according to an embodiment of the present invention.

FIG. 2 is a detailed circuit diagram of the luminance correction unit in FIG.

Hereinafter, the configuration and operation thereof according to the present invention will be described with reference to the accompanying drawings.

1 is a back raster brightness control circuit diagram of a monitor according to an exemplary embodiment of the present invention, and FIG. 2 is a detailed circuit diagram of a brightness correction unit of a back raster brightness control circuit of a monitor shown in FIG. A predetermined amount of amplification of a video card 10 to be output, a video preamplifier 40 for outputting a luminance level for an image signal applied from the video card 10, and a signal output from the video preamplifier 40. A video main amplifier 50 for outputting to the cathode ray tube CRT, a microcomputer 20 for outputting a luminance correction signal determined for each horizontal frequency according to the horizontal synchronization signal H_SYNC applied from the video card 10, The luminance correction unit 30 applies a predetermined current according to the luminance correction signal output from the microcomputer 20.

The luminance corrector 30 has damping diodes D1 and D2 connected to the first and second switching ports S1 and S2 of the microcomputer 20, respectively, and an anode of the diodes D1 and D2 is provided. Resistor R1 and R2 are connected to each other, and variable resistor VR1 and voltage divider resistor R3 and R4 for adjusting the reference voltage are connected in series to one side of the resistor R1 and R2 connected in parallel. It is connected.

The luminance correction signals for each horizontal frequency output from the microcomputer 20 to the first and second switching ports S1 and S2 are shown in Table 1 below.

The output signals of the first and second switching ports S1 and S2 for the horizontal frequencies are used by the signals output from the microcomputer 20 for switching the S-shaped correction unit of the horizontal deflection circuit.

Referring to the operation of the present invention having the above configuration in detail as follows.

First, when the horizontal synchronizing signal H_SYNC is output from the video card 11, the microcomputer 20 determines the horizontal frequency.

If the horizontal frequency determined by the microcomputer 20 is 31 to 40 kHz, the microcomputer 20 outputs a low signal through the first switching port S1 and the second switching port S2, respectively. Therefore, since each of the switching ports S1 and S2 of the luminance correction unit 30 is low, the connection of the resistors R1 and R2 is turned off, so that the reference by the voltage divider resistors R3 and R4 and the variable resistor VR1 is reduced. Current is applied to the video preamplifier 40. The video preamplifier 40 outputs a luminance level signal proportional to the applied reference current to the video main amplifier 50, and the video main amplifier 50 amplifies a predetermined amount of the signal so that the cathode ray tube (CRT) Output the corresponding luminance signal.

If the horizontal frequency determined by the microcomputer 20 is 40 to 50 kHz, the microcomputer 20 outputs a high signal through the first switching port S1 and a low signal through the second switching port S2. Accordingly, in the first switching port S1 of the luminance corrector 30, the diode D1 operates to turn on the connection of the resistor R1, and the connection of the resistor R2 is turned off by the second switching port S2. Then, it is applied to the video preamplifier 40 slightly lower than the reference current by the divided resistors R3 and R4 and the variable resistor VR1. The video preamplifier 40 outputs a luminance level signal proportional to a current which is somewhat lower than the applied reference current to the video main amplifier 50, and the video main amplifier 50 amplifies the signal by a predetermined amount so that the cathode ray tube (CRT) As a result, a luminance signal corresponding to a current slightly lower than the reference current is output.

When the horizontal frequency determined by the microcomputer 20 is 50 to 60 kHz, the microcomputer 20 outputs a high signal through the first switching port S1 and the second switching port S2, respectively. Therefore, since each of the switching ports S1 and S2 of the luminance corrector 30 is high, the connections of the resistors R1 and R2 are all turned on, and the voltages of the voltage divider resistors R3 and R4 and the variable resistor VR1 are turned on. Applied to video preamplifier 40 much lower than the reference current. The video preamplifier 40 outputs a luminance level signal proportional to a current very low than the applied reference current to the video main amplifier 50, and the video main amplifier 50 amplifies the signal by a predetermined amount, thereby providing a cathode ray tube (CRT). This outputs a luminance signal corresponding to a current much lower than the reference current.

As a result of this series of operations, when the horizontal frequency is low frequency, high current is supplied to increase the brightness, and when the high frequency is low, the luminance is adjusted by supplying low current so that the luminance signal finally applied to the cathode ray tube (CRT) is always constant. Is maintained.

The present invention has the effect of keeping the luminance of the back raster constant on the screen by compensating the current amount for each horizontal frequency in a color monitor having a weak deflection and a high voltage integrated circuit.

Claims (2)

A video card for outputting a video signal, a video preamplifier for outputting a luminance level for the video signal applied from the video card, and a video main amplifier for amplifying a predetermined amount of the signal output from the video preamplifier and outputting the signal to a cathode ray tube; In the brightness control circuit of the monitor comprising: when the horizontal frequency output from the video card is 31 ~ 40kHz outputs a low signal through the first switching port and the second switching port, respectively, and when the horizontal frequency is 40 ~ 50kHz A microcomputer outputting a high signal through the first switching port and a low signal through the second switching port, and outputting a high signal through the first switching port and the second switching port, respectively, when the horizontal frequency is 50 to 60 kHz; A first damping diode having a cathode connected to the first switching port of the microcomputer; A first resistor connected to the anode of the ping diode, a second damping diode connected to the cathode of the second switching port of the microcomputer, a second resistor connected to the anode of the second damping diode, and connected in parallel And a brightness adjusting unit which is connected to one side of the first and second resistors to adjust a reference voltage and a voltage divider resistor, so that the output of the brightness adjusting unit is applied to the video preamplifier. Back raster brightness control circuit. The back raster luminance control circuit of claim 1, wherein the microcomputer applies the same result of the frequency discrimination signal of the horizontal synchronization signal applied to the switching circuit for the S-shape correction of the horizontal deflection circuit.