KR19990003613U - Horizontal Size Correction Circuit of Multi-Mode Monitor - Google Patents

Abstract

The present invention is a transformer (T1) is a predetermined variable current is induced when the amount of current flowing through the horizontal deflection coil; A rectifier 10 for rectifying the variable current induced in the transformer T1; A differential amplifier 20 for comparing the voltage of the rectified signal output from the rectifier 10 with a predetermined reference voltage Vref and outputting a voltage signal corresponding to the difference; A horizontal size correction circuit of the multi-mode monitor, characterized in that it comprises a size transistor Q1 for turning on and varying the amount of current flowing in the horizontal deflection coil when the voltage signal output from the differential amplifier 20 is applied to the base. It is about.

When the video mode is changed and the amount of current flowing through the horizontal deflection coil is varied, the sizing transistor Q1 is turned on to reduce the amount of current flowing through the horizontal deflection coil by the variable current applied from the transformer T1 to the rectifier 10 or By increasing, the horizontal size is kept constant at all times.

Description

Circuit for compensating a horizontal-size in a multi-mode monitor

The present invention relates to a multi-mode monitor, and more particularly, to a horizontal size correction circuit of a multi-mode monitor so that the horizontal size of the screen is always maintained even if the video mode of the multi-mode monitor changes.

In general, a multi-mode monitor is a monitor configured to reproduce a predetermined video signal output from a video card that supports various video modes such as CGA mode, SGA mode, VGA mode, SVGA mode, and high resolution mode. In addition, when the mode of the video signal output from the video card is changed, since the resolution of the multi-mode monitor is changed for each mode, the horizontal size, vertical size, position, etc., as well as the horizontal frequency and the vertical frequency all change. Looking at the changes in the horizontal frequency, vertical frequency and resolution according to the video mode as shown in Table 1 below.

TABLE 1

Classification by video mode

Video mode Horizontal frequency (kHz) Vertical frequency (Hz) Resolution (H * V) CGA 15.75 60 640 * 200 EGA 21.8 60 640 * 350 VGA 31.5 60/70 720 * 350 640 * 480 SVGA 35 to 37 INTERLACE 1024 * 768 800 * 600 High resolution mode 48-75 60-70 1024 * 7681280 * 1024

Therefore, in the multi-mode monitor, as shown in Table 1, each time the video mode is changed, various correction circuits for maintaining the optimum state of the horizontal frequency, vertical frequency, horizontal size, vertical size, position, etc. 1 is a diagram showing a horizontal size correction circuit among various correction circuits as described above, the horizontal size correction circuit comprising: a microcomputer 11; A horizontal size adjusting unit 12; It is comprised including the transistor Q1 for size adjustment.

The operation of the horizontal size correction circuit configured as described above is as follows.

The microcomputer 11 outputs a predetermined horizontal size control signal when the video mode is changed or the user adjusts the horizontal size. The horizontal size control unit 12 outputs the horizontal size control signal output from the microcomputer 11. Is inputted, the predetermined horizontal size correction signal is outputted. As described above, when the horizontal size adjusting unit 12 outputs a horizontal size correction signal to the base of the size adjusting transistor Q1, the size adjusting transistor Q1 is turned on to limit the amount of current flowing through the horizontal deflection coil H.DY. . If the size adjustment transistor Q1 decreases the amount of current flowing through the horizontal deflection coil, the horizontal size of the screen decreases. On the contrary, if the amount of current flowing through the horizontal deflection coil increases, the horizontal size of the screen increases. That is, when the current I1 shown in FIG. 1 increases, the current I2 flows a lot to decrease the current I2. When the current I1 decreases, the current I3 flows slightly to increase the current I2.

However, in the multi-mode monitor, if the horizontal size of the screen is adjusted using the horizontal size correction circuit as described above, it is difficult to configure the circuit to optimally correspond to the video mode whenever the video mode is changed. It was costly and hasslesome for the user to make a separate operation to adjust the horizontal size.

Thus, in order to solve the above problems, the present invention, when the amount of current flowing through the horizontal deflection coil is changed as the video mode is changed, the horizontal deflection coil by comparing the voltage of the variable current with a predetermined reference voltage (Vref). It is an object of the present invention to provide a horizontal size correction circuit of a multi-mode monitor in which the horizontal size is always kept constant by keeping the amount of current flowing in the constant.

In order to achieve the above object, the present invention is a transformer for a predetermined variable current is induced when the amount of current flowing in the horizontal deflection coil; A rectifier for rectifying the variable current induced in the transformer; A differential amplifier for comparing the voltage of the rectified signal output from the rectifier with a predetermined reference voltage Vref and outputting a voltage signal corresponding to the difference; And a size adjusting transistor which is turned on when the voltage signal output from the differential amplifier is applied to the base and varies the amount of current flowing in the horizontal deflection coil.

The apparatus of the present invention configured as described above reduces or increases the amount of current flowing in the horizontal deflection coil by the variable current applied to the rectifying unit by turning on the sizing transistor when the amount of current flowing in the horizontal deflection coil changes in the video mode. By doing so, the horizontal size is always kept constant.

1 is a view showing a conventional horizontal size correction circuit,

2 is a diagram illustrating a horizontal size correction circuit of a multi-mode monitor according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: rectifier 11: micom

12: horizontal size adjusting unit 20: differential amplifier

Q1: transistor R1, R2, R3, R4, R5, R6, R7: resistor

C1: capacitor D1: diode

T1: Transformer H.DY: Horizontal Deflection Coil

L1: Inductor

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

2 is a diagram illustrating a horizontal size correction circuit of a multi-mode monitor according to the present invention.

As shown in FIG. 2, an embodiment according to the present invention includes a transformer T1 in which a predetermined variable current is induced when an amount of current flowing in a horizontal deflection coil is varied; A rectifier 10 for rectifying the variable current induced in the transformer T1; A differential amplifier 20 for comparing the voltage of the rectified signal output from the rectifier 10 with a predetermined reference voltage Vref and outputting a voltage signal corresponding to the difference; When the voltage signal output from the differential amplifier 20 is applied to the base, it is turned on to include a size transistor Q1 for varying the amount of current flowing in the horizontal deflection coil. Here, the rectifier 10 includes a rectifier diode D1 and a smoothing capacitor C1, an emitter of the size adjusting transistor Q1 is connected to the horizontal deflection coil, and the differential amplifier 20 is a voltage divider resistor. It consists of an OP amplifier in which R4 and R5 are connected to the inverting terminal and the voltage distribution resistors R6 and R7 are connected to the non-inverting terminal. In addition, a rectified signal output from the rectifier 10 is input to the inverting terminal of the OP amplifier in the differential amplifier 20, and a predetermined reference voltage for maintaining a constant horizontal size of the screen to the non-inverting terminal. Vref) is input, and the output terminal of the OP amplifier is connected to the base of the size adjusting transistor Q1.

The action of the embodiment according to the present invention configured as described above is as follows.

In the embodiment according to the present invention, first, it is assumed that the amount of current flowing through the horizontal deflection coil is set to a predetermined value by the reference voltage Vref of the differential amplifier 20. Further, as shown in FIG. 2, in the state where the amount of current flowing through the horizontal deflection coil is first determined as a predetermined value by the reference voltage Vref of the differential amplifier 20 as described above, correcting the horizontal size Since the current I3 does not flow, the value of the current I1 and the value of the current I2 are the same, and this current I2 always has a constant value.

In the above state, when the video mode is changed and the input current I1 flowing in the horizontal deflection coil is changed to a predetermined value, the transformer T1 is induced with a current proportional to the amount of the changed current. In addition, the predetermined current induced in the transformer T1 is rectified by the diode D1 and the capacitor C1 of the rectifier 10, and the predetermined rectified signal is input to the inverting terminal of the differential amplifier 20. At this time, the differential amplifier 20 compares the voltage of the rectified signal inputted from the rectifier 10 and the reference voltage Vref and outputs a voltage signal corresponding to the difference. The magnitude of the voltage signal output from 20) is proportional to the amount of current induced in the transformer T1.

In this manner, when the predetermined voltage signal output from the differential amplifier 20 is applied to the base of the size-sizing transistor Q1 through the resistors R3 and R2, the size-sizing transistor Q1 is turned on, and the size-sizing transistor Q1 is turned on. 2, the current I3 for adjusting the horizontal size flows through the inductor L1, the resistor R1, and the collector and emitter of the sizing transistor Q1. At this time, the value of the current I3 is determined by a predetermined voltage signal output from the differential amplifier 20 when the current I1 changes to a predetermined value, and finally, the predetermined value output from the differential amplifier 20. When the voltage signal of 0V becomes 0V and the size adjusting transistor Q1 is turned off, the current I3 is cut off. That is, since the value of the current I1 that has changed to the predetermined value as the video mode is changed becomes the same as the value of the current I2 that is initially determined to the predetermined value by the reference voltage Vref of the differential amplifier 20, The horizontal size remains constant even when the mode is changed.

As described above, if the amount of current flowing in the horizontal deflection coil is changed according to the present invention, the size adjustment transistor is turned on to reduce the amount of current flowing in the horizontal deflection coil by the variable current applied from the transformer to the rectifier. In order to keep the horizontal size constant by increasing or increasing the size, the cost is reduced because there is no need to provide a circuit for maintaining the horizontal size optimally whenever the video mode is changed, such as the microcomputer or the horizontal size adjusting unit. In this case, the user does not need to perform a separate operation to adjust the horizontal size.

Claims (1)

A transformer (T1) in which a predetermined variable current is induced when the amount of current flowing in the horizontal deflection coil is varied; A rectifier 10 for rectifying the variable current induced in the transformer T1; A differential amplifier 20 for comparing the voltage of the rectified signal output from the rectifier 10 with a predetermined reference voltage Vref and outputting a voltage signal corresponding to the difference; When the voltage signal output from the differential amplifier 20 is applied to the base, the size of the horizontal mode correction of the multi-mode monitor characterized in that it comprises a sizing transistor (Q1) for varying the amount of current flowing in the horizontal deflection coil Circuit