KR100339350B1 - Apparatus for controling picture of monitor - Google Patents

Abstract

The present invention relates to a screen control apparatus of a monitor that detects and corrects an abnormality in a horizontal deflection and a vertical deflection driving voltage so that a screen having a normal size can be realized at all times. A monitor having a cathode ray tube includes a horizontal deflection coil of a cathode ray tube. A horizontal deflection driving unit for outputting a driving voltage for driving; a vertical deflection driving unit for outputting a driving voltage for driving a vertical deflection coil of the cathode ray tube; a horizontal deflection driving voltage detecting unit for detecting a voltage level of the output of the horizontal deflection driving unit; A deflection control unit that controls the horizontal deflection drive unit and the vertical deflection drive unit, an image signal counter that counts the timing of the image signal transmitted from the main body, and a memory unit that stores setting values for each reference mode image signal to achieve an optimal screen state. And a memo corresponding to the output of the video signal counter to output the horizontal deflection driving voltage detector. Since compared with the set value unit, including a microcomputer for controlling the bias control such that the display size of the window according to the standard mode, the configuration can improve the user-friendliness and furthermore improve the reliability of the product.

Description

Monitor screen control unit {APPARATUS FOR CONTROLING PICTURE OF MONITOR}

TECHNICAL FIELD The present invention relates to a monitor, and more particularly, to a screen control apparatus of a monitor.

In general, the monitor is associated with a reference value for each video signal and a configuration for controlling the actual video signal processing by using the reference value so that the screen can be displayed at a suitable size on the screen.

As shown in FIG. 1, the apparatus for controlling a screen of a monitor according to the related art includes a reference value of a detailed image signal of each reference mode in order to achieve an optimal screen state corresponding to characteristics of each monitor (1). ), A horizontal deflection driver 2 for outputting a drive signal HFLB for adjusting the horizontal deflection of the screen, a vertical deflection driver 3 for outputting a drive signal VFLB for adjusting the vertical deflection of the screen, and the horizontal Counting the timing of the deflection control unit 4 for controlling the deflection driving unit 2 and the vertical deflection driving unit 3, the R / G / B video signal, the vertical / horizontal synchronization signal (VSYNC / HSYNC), and the horizontal deflection driving signal. Through the video signal counter 5 and the digital control line SDA / SCL, the output of the video signal counter 5 and the reference value for each signal stored in the EPI rom 1 are read, and the two values are compared to set the screen. So that the screen can be implemented in It is configured to include a microcomputer (6) for controlling the bias control group (4).

Referring to the conventional screen control operation configured as described above is as follows.

First, the video signal counter 5 counts the periods of the R / G / B video signal, the horizontal / vertical synchronization signal, and the horizontal deflection driving signal HFLB, and outputs the count value to the microcomputer 6.

Subsequently, the microcomputer 6 compares the reference period value for each image signal with the output of the image signal counter 5 through the Y pyrom 1, and as a result of the comparison, the output of the image signal counter 5 is larger than the reference period value. If it is small, the control signal is output to the deflection control unit 4 so as to approach the reference value.

The deflection control unit 4 controls the output of the horizontal deflection drive unit 2 and the vertical deflection drive unit 3 according to the control signal of the microcomputer 6.

Accordingly, the horizontal deflection driving unit 2 and the vertical deflection driving unit 3 output the horizontal deflection driving signal HFLB and the vertical deflection driving signal VFLB, respectively, so that the horizontal and vertical deflection of the image signal are made on the screen. .

At this time, in the case of the horizontal deflection drive signal HFLB and the vertical deflection drive signal HFLB, for example, the waveform of the horizontal deflection drive signal HFLB is the same period as the horizontal synchronization signal with the predetermined phase difference as shown in FIG. Generated by T '.

When manufacturing a monitor, component characteristic error, high pressure of cathode ray tube, deflection sensitivity of deflection yoke, or an error of internal output voltage may occur, which causes the actual voltage level of HFLB to be higher than the reference voltage. Can be low or low.

Therefore, since the voltage level of the horizontal deflection driving signal HFLB is proportional to the horizontal screen size as shown in FIG. 3, the abnormality of the horizontal deflection driving signal HFLB causes an abnormality of the screen size.

The monitor according to the prior art does not detect horizontal or vertical deflection drive voltage abnormalities due to component characteristic error, high voltage level of cathode ray tube, deflection yoke deflection, and error of internal output voltage. There is a problem that an abnormal screen is output.

Accordingly, the present invention has been made to solve the above-described problems, and provides a screen control apparatus for a monitor that detects and corrects an abnormality in a horizontal deflection and a vertical deflection driving voltage so that a screen having a normal size can be realized at all times. The purpose is.

1 is a block diagram showing the configuration of a screen control apparatus of a monitor according to the prior art;

2 is a waveform diagram showing a flyback driving voltage;

3 is a graph showing the relationship between the flyback driving voltage and the screen size;

4 is a block diagram showing the configuration of a screen control apparatus of a monitor according to the present invention;

5A and 5B are circuit diagrams showing detailed configurations of the horizontal deflection driving voltage detector and the vertical deflection driving voltage detector, respectively.

Explanation of symbols for main parts of the drawings

41: EEPROM 42: horizontal deflection drive

43: horizontal deflection driving voltage detector 44: vertical deflection driving unit

45: vertical deflection drive voltage detection unit 46: deflection control unit

47: video signal counter 48: microcomputer

51, 61: buffer 52, 62: A / D converter

The present invention provides a monitor having a cathode ray tube, the horizontal deflection drive unit for outputting a driving voltage for driving the horizontal deflection coil of the cathode ray tube, and a vertical deflection drive unit for outputting a drive voltage for driving the vertical deflection coil of the cathode ray tube. A horizontal deflection drive voltage detector for detecting a voltage level of the output of the horizontal deflection drive unit, a deflection control unit for controlling the horizontal deflection drive unit and a vertical deflection drive unit, a video signal counter for counting timing of video signals transmitted from the main body, and The size of the memory according to the reference mode is compared with the setting value of the memory unit storing the setting value for each video signal of the reference mode for achieving the screen state of the video signal and the memory unit corresponding to the output of the video signal counter. And a microcomputer for controlling the deflection control unit so that the screen is displayed. The.

The present invention provides a monitor having a cathode ray tube, the horizontal deflection drive unit for outputting a driving voltage for driving the horizontal deflection coil of the cathode ray tube, and a vertical deflection drive unit for outputting a drive voltage for driving the vertical deflection coil of the cathode ray tube. A horizontal deflection drive voltage detector for detecting the voltage level of the output of the horizontal deflection driver, a vertical deflection drive voltage detector for detecting the voltage level of the output of the vertical deflection driver, a deflection controller for controlling the horizontal deflection drive unit and the vertical deflection drive unit; A video signal counter for counting the timing of the video signal transmitted from the main body, a memory unit for storing reference mode video signal setting values for achieving an optimal screen state, a horizontal deflection drive voltage detector and a vertical deflection drive voltage detector Reference mode by comparing the output with the setting value of the memory section corresponding to the output of the video signal counter The configured including a microcomputer for controlling the bias control so that the size of the screen is displayed according to a further feature.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the screen control device of the monitor according to the present invention.

4 is a block diagram showing the configuration of the screen control apparatus of the monitor according to the present invention, Figures 5a and 5b is a circuit diagram showing the detailed configuration of the horizontal deflection drive voltage detector and the vertical deflection drive voltage detector, respectively.

As shown in FIG. 4, the apparatus for controlling a screen of a monitor according to the present invention drives a YPIROM 41 and a horizontal deflection coil of a cathode ray tube, which store reference values for respective image signals in a reference mode to achieve an optimal screen state. A horizontal deflection driving unit 42 for outputting a driving voltage for adjusting the horizontal deflection of the screen, a vertical deflection driving unit 44 for outputting a driving voltage for driving the vertical deflection coil of the cathode ray tube and adjusting the vertical deflection of the screen; A horizontal deflection drive voltage detector 43 for detecting a voltage level of the output of the horizontal deflection driver 42, a vertical deflection drive voltage detector 45 for detecting a voltage level of the output of the vertical deflection driver 44, and a horizontal deflection driver 42 and the deflection control unit 46 which controls the vertical deflection drive unit 44, a video signal transmitted from a main body, i.e., a PC, that is, an R / G / B video signal, a vertical / horizontal synchronization signal (VSYNC / HSYNC), and a horizontal Deflection drive Corresponding setting of the reference mode corresponding to the output of the video signal counter 47, the output of the video signal counter 47, the horizontal deflection drive voltage detector 43, and the vertical deflection drive voltage detector 45, which counts the timing of the call; And a microcomputer 48 for controlling the deflection control unit 46 so that a screen having a size corresponding to the reference mode can be displayed.

In this case, as shown in FIG. 5A, the horizontal deflection driving voltage detector 43 is configured to rectify and smooth the analog output of the horizontal deflection driving unit 42. The voltage level of the voltage dividing resistors R1 and R2 and the voltage dividing voltage divided by the voltage dividing resistors R1 and R2 for dividing the analog output rectified and smoothed by (C1) to a predetermined ratio is maintained at a predetermined level or more. And an A / D converter 52 for converting the analog output of the buffer 51 into digital and outputting the digital output to the microcomputer 48.

In addition, the vertical deflection driving voltage detector 45 includes a diode D2 and a capacitor C2 for rectifying and smoothing the analog output of the vertical deflection driving unit 44, as shown in FIG. 5B, and the diode D2 and the capacitor. The voltage level of the voltage dividing resistors R1 and R2 and the voltage dividing voltage divided by the voltage dividing resistors R1 and R2 for dividing the analog output rectified and smoothed by (C2) to a predetermined ratio is maintained above a predetermined level. And an A / D converter 62 for converting the analog output of the buffer 61 into digital and outputting the digital output to the microcomputer 48.

Referring to the screen control operation of the present invention configured as described above are as follows.

First, the video signal counter 47 counts the periods of the R / G / B video signal, the horizontal / vertical synchronization signal, and the horizontal deflection driving signal HFLB, and outputs the count value to the microcomputer 48.

Subsequently, the microcomputer 48 compares the output of the video signal counter 47 and the respective video signal setting values, i.e., periods, of each reference mode read from the EPI rom 41 through the digital control line SDA / SCL. As a result, when the output of the image signal counter 47 is larger or smaller than the reference period value, the control signal is output to the deflection control unit 46 so as to be equal to the reference value.

The deflection controller 46 controls the output of the horizontal deflection driver 42 and the vertical deflection driver 44 according to the control signal of the microcomputer 48.

Subsequently, the horizontal deflection driving unit 42 outputs the driving signal HFLB to the horizontal deflection coil under the control of the deflection control unit 46, and the vertical deflection driving unit 44 drives the vertical deflection coil under the control of the deflection control unit 46. Output the signal VFLB.

The horizontal deflection driving voltage detector 43 and the vertical deflection driving voltage detector 45 respectively rectify and smooth the driving voltages of the horizontal deflection driving unit 42 and the vertical deflection driving unit 44, and perform signal processing in the microcomputer 48. After dividing by, digital conversion is performed and output to the microcomputer 48.

Subsequently, the microcomputer 48 compares the voltage levels output from the horizontal deflection driving voltage detector 43 and the vertical deflection driving voltage detector 45 with respective reference voltage levels preset according to the reference mode of the currently input image.

In addition, if the output of the horizontal deflection drive voltage detector 43 or the vertical deflection drive voltage detector 45 is greater than or less than the reference voltage level, the microcomputer 48 may be equal to the reference voltage level. The deflection control unit 46 is controlled via SCL.

Subsequently, the deflection control unit 46 varies the drive voltage outputs of the horizontal deflection driving unit 42 and the vertical deflection driving unit 44 according to the control signal of the microcomputer 48.

Accordingly, the horizontal deflection driving unit 42 and the vertical deflection driving unit 44 output the horizontal deflection driving voltage and the vertical deflection driving voltage, respectively, under the control of the deflection control unit 46, and accordingly, the horizontal and vertical deflection of the image signal are performed. According to the size of the screen is displayed.

The screen control apparatus of the monitor according to the present invention displays the screen of the appropriate size at the proper position at all times regardless of component characteristics and internal output voltage error through the control of the horizontal deflection driving voltage and the vertical deflection driving voltage, so that the user can separately display the screen size. There is no need to make adjustments to improve user convenience and further improve the reliability of the product.

Claims (5)

In the monitor provided with a cathode ray tube, A horizontal deflection driving unit for outputting a driving voltage for driving the horizontal deflection coil of the cathode ray tube; A vertical deflection driver for outputting a driving voltage for driving the vertical deflection coil of the cathode ray tube; A horizontal deflection driving voltage detector for detecting a voltage level of the output of the horizontal deflection driving unit; A deflection control unit for controlling the horizontal deflection driving unit and the vertical deflection driving unit; A video signal counter for counting timing of video signals transmitted from the main body; Memory unit for storing the setting value of each reference mode video signal to achieve an optimal screen state, And a microcomputer controlling the deflection control unit so that a screen having a size corresponding to a reference mode is displayed by comparing the output of the horizontal deflection driving voltage detector with a setting value of the memory unit corresponding to the output of the image signal counter. Screen control of the monitor. According to claim 1, The horizontal deflection driving voltage detector includes: a rectifier for rectifying the analog output of the horizontal deflection driving unit; A voltage divider resistor for dividing the output of the rectifier at a predetermined ratio; And an A / D converter for converting the analog voltage divided by the voltage divider into digital and outputting the digital voltage to the microcomputer. In the monitor provided with a cathode ray tube, A horizontal deflection driving unit for outputting a driving voltage for driving the horizontal deflection coil of the cathode ray tube; A vertical deflection driver for outputting a driving voltage for driving the vertical deflection coil of the cathode ray tube; A horizontal deflection driving voltage detector for detecting a voltage level of the output of the horizontal deflection driving unit; A vertical deflection drive voltage detector for detecting a voltage level of the output of the vertical deflection driver; A deflection control unit for controlling the horizontal deflection driving unit and the vertical deflection driving unit; A video signal counter for counting timing of video signals transmitted from the main body; Memory unit for storing the setting value of each reference mode video signal to achieve an optimal screen state, And a microcomputer for controlling the deflection control unit so that a screen having a size corresponding to a reference mode is displayed by comparing outputs of the horizontal deflection driving voltage detector and the vertical deflection driving voltage detector with a setting value of the memory unit corresponding to an output of an image signal counter. Screen control device of the monitor, characterized in that configured by. The method of claim 3, wherein The horizontal deflection driving voltage detector includes: a rectifier for rectifying the analog output of the horizontal deflection driving unit; A voltage divider resistor for dividing the output of the rectifier at a predetermined ratio; And an A / D converter for converting the analog voltage divided by the voltage divider into digital and outputting the digital voltage to the microcomputer. The method of claim 3, wherein The vertical deflection driving voltage detector includes: a rectifier for rectifying the analog output of the vertical deflection driving unit; A voltage divider resistor for dividing the output of the rectifier at a predetermined ratio; And an A / D converter for converting the analog voltage divided by the voltage divider into digital and outputting the digital voltage to the microcomputer.