KR0150268B1 - Horizon formation compensating circuit by modes of monitor - Google Patents

Abstract

The present invention relates to a horizontal linearity compensation circuit for each mode of a monitor in which a current amount of a horizontal synchronous signal supplied to a horizontal deflection coil is automatically adjusted when a mode input signal is changed to correct horizontal linearity.

To this end, a noise removing unit 1 for removing noise included in the mode input signal IN, and a current control unit connected to an output terminal of the noise removing unit 1 to change the output current according to the mode input signal IN (2) a reference voltage supply unit (3) which receives the output signal of the current control unit (2) and supplies it as a reference voltage to the input side of the current control unit (2), and is connected to the output side of the current control unit (2) And a transformer 4 for supplying current to the horizontal deflection coil 6 and a size adjusting unit 5 connected to an output terminal of the transformer 4 to adjust the magnitude of the mode input signal.

Description

Horizontal Linearity Compensation Circuit for Each Monitor Mode

1 is a horizontal linear compensation circuit diagram for each mode of a conventional monitor.

2 is a horizontal linearity compensation circuit diagram for each mode of the monitor according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Noise removing unit 2: Current adjusting unit

3: reference voltage supply part 4: voltage conversion part

5: size adjustment part 6: horizontal deflection coil

R1 to R5: Resistance OP: Comparator

Q1: transistors C1 to C4: capacitors

TS: trance

The present invention relates to a horizontal linearity compensation circuit for each mode of a monitor, and in particular, when a mode input signal is changed, a monitor in which a current amount of a horizontal synchronous signal supplied to a horizontal deflection coil is automatically adjusted to correct horizontal linearity. It relates to a horizontal linearity compensation circuit of each mode.

The horizontal linearity compensation circuit for each mode of a conventional monitor generally used includes a capacitor Q1 driving in accordance with a mode signal and a size connected in series with an output terminal of the transistor Q1, as shown in FIG. And a coil L1 connected to the output side of the capacitor C2 to adjust the damping of the signal applied to the horizontal deflection coil H.DY.

That is, when a mode signal is input, the capacitor C1 is turned on as it is applied to the transistor Q1 through the resistor R1, and the capacitor C1 is at the ground level, and is connected in parallel to the original size correction capacitor C2. The capacitance value of the correction capacitor changes and is corrected.

Such a mode-specific horizontal compensation circuit of a conventional monitor requires a large number of transistors when the mode is changed according to each mode, thereby causing a problem in that the circuit is doubled.

The present invention is composed of a noise removing unit, a current control unit, a reference voltage supply unit, a voltage converting unit to solve the above problems, the input signal of the current control unit is also simultaneously increased and decreased in accordance with the increase and decrease of the mode input signal is supplied to the horizontal deflection coil. It is an object of the present invention to provide a mode-specific horizontal linearity compensation circuit of a monitor that can display a clear image on a monitor even during mode switching by automatically adjusting the amount of current.

The present invention for achieving the above object, the noise removing unit 1 for removing the noise included in the mode input signal IN, the mode input signal IN is connected to the output terminal of the noise removing unit 1 According to the current control unit 2 for changing the output current, the reference voltage supply unit 3 for supplying the output signal of the current control unit 2 as a reference voltage to the input side of the current control unit 2, A voltage converter 4 connected to the output side of the current regulator 2 for supplying current to the horizontal deflection coil 6 and a size connected to the output terminal of the voltage converter 4 to adjust the magnitude of the mode input signal. The adjusting part 5 is provided.

Hereinafter, described in detail by the accompanying drawings as follows.

2 is a horizontal linear compensation circuit diagram for each mode of the monitor according to the present invention, in which a mode input signal IN is applied and a current control is provided at an output terminal of the noise canceling unit 1 in which a resistor R1 and a capacitor C1 are connected in series. A reference voltage supply unit connected to the primary side of the transformer TS through the unit 2, and resistors R2 to R4 are connected in parallel to an input side of one end of the current control unit 2 to supply a reference voltage of a predetermined value ( 3) is connected.

The output terminal of the current regulator 2 is connected to a voltage converter 4 in which a capacitor C2 is connected to a primary side of a transformer TS. A resistor R5 and a capacitor are connected to a secondary side of the transformer TS. A size adjusting section 5 made of (C3) is provided to be connected to the horizontal deflection coil 6.

In addition, the current adjusting unit 2 is a comparator OP for outputting a predetermined signal by comparing the mode input signal IN through the noise removing unit 1 and the reference voltage output from the reference voltage supply unit 3. The output signal of the comparator OP is transmitted to the base side of the transistor Q1.

According to the present invention made as described above, when the mode input signal IN is first input through the resistor R1 of the noise removing unit 1, the noise is removed by the capacitor C1, and then the current adjusting unit 2 is a comparator. It is applied to the non-inverting terminal (+) of (OP) and amplified to a predetermined level. The amplified signal thereof is amplified and output by being turned on and input to the base of the transistor Q1.

Therefore, the amplified signal of the transistor Q1 is transmitted to the primary side of the transformer TS, whereby the amplified signal is induced in the secondary coil and applied to the horizontal deflection coil DY, where the resistance of the size adjusting unit 5 The ringing generated in the horizontal deflection coil DY is removed by the R5 and the condenser C3, and the size is adjusted by the condenser C4.

On the other hand, the output signal of the transistor Q1 of the current control unit 2 is distributed to the resistors R2 to R4 of the reference voltage supply unit 3 and then applied to the inverting terminal (-) of the comparator OP. OP) compares the output of the noise removing unit 1 with the output signal of the reference voltage supply unit 3, and amplifies the difference to output the bias voltage of the transistor Q1. As a result, the induced voltage of the transformer TS can be adjusted, thereby varying the current flowing in the horizontal deflection coil DY.

That is, the reference voltage applied to the comparator OP increases and decreases as the mode input signal IN increases and decreases, and the current induced on the secondary side of the transformer TS changes in proportion, thereby being supplied to the horizontal deflection coil DY. The current loss is automatically adjusted so that the correction is made horizontally and linearly.

As described above, the present invention includes a noise removing unit, a current adjusting unit, a reference voltage supply unit, and a transformer so that the input signal of the current adjusting unit is simultaneously increased or decreased according to the increase or decrease of the mode input signal, and is supplied to the horizontal deflection coil. By automatically adjusting the amount of current, a clear image can be displayed on the monitor even during mode switching.

Claims (1)

A monitor having a size adjusting unit 5 connected to an output terminal of the voltage converting unit 4 for adjusting the magnitude of an input signal according to a mode conversion, wherein the input terminal of the voltage converting unit 4 has a mode input signal IN. And a comparator (OP) connected to be introduced into the non-inverting terminal through the noise removing unit (1) to remove the noise included in the) and to be introduced into the inverting terminal through the reference voltage supply unit (3) generating a reference voltage of a predetermined value. And a current adjusting unit (2) comprising a transistor (Q1) controlling the output current of the transformer (TS) by the output signal of the comparator (OP).