KR900009577Y1 - Horizontal deflecting protecting circuit - Google Patents

Abstract

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Description

Horizontal Deflection Protection Circuit of Monitor

1 is a conventional circuit diagram.

2 is a circuit of the present invention.

3 is a signal waveform diagram of each part according to FIG.

* Explanation of symbols for main parts of the drawings

1 input 2 protection circuit

3: horizontal output circuit Q _{1 to} Q ₃ : transistor

FT: Flyback Transformer HS: Horizontal Sync Signal

DY: deflection yoke HV: high voltage

BT: Brightness adjustment signal B ': Power supply

[Industrial use]

The present invention is designed to stop the operation of the horizontal deflection circuit in the horizontal deflection circuit of the monitor when a low frequency horizontal synchronous signal is supplied in the initial state of power supply and a high voltage is output to the output of the flyback transformer. The horizontal deflection protection circuit of the monitor.

[Traditional Technology and Problems]

The horizontal deflection circuit is a circuit for acquiring the current signal necessary to scan the electron beam of the cathode ray tube in the horizontal direction. In the conventional case, when the horizontal synchronous signal supplied to the horizontal deflection circuit of the monitor becomes lower than normal, the flyback transformer As the output voltage rises, the operation of the entire horizontal deflection circuit becomes unstable.

In general, in the initial state immediately after power is supplied to the monitor, the horizontal synchronous signal and the vertical synchronous signal from the control board are supplied at a low frequency. It will cause a fatal disorder.

The conventional horizontal deflection circuit is configured as shown in FIG. 1, so that the horizontal synchronous signal HS supplied from the control board to the monitor is connected to the transistor Q ₁ through the capacitor C ₁ and the resistor R ₁ . Transistor Q ₁ is turned on and off according to the high and low levels of the synchronization signal HS, so that the phase is inverted and amplified to the collector side of the transistor Q ₁ . HS) is output, and this output signal is applied to the base of the transistor Q ₂ through the capacitor C ₂ to turn the transistor Q ₁ on and off, so that it is returned from the colorator side of the transistor Q ₂ . A flyback pulse with a reversed phase is output.

This flyback pulse is then applied to a flyback transformer (FT), which causes the horizontal circuit to operate. In this case, when the horizontal synchronous signal HS is normal, the desired high voltage HV is output to the output side of the flyback transformer FT. However, when the horizontal synchronous signal HS is supplied with a lower frequency than normal, the flyback transformer FT ), Including the high voltage (HV) output, the overall output voltage is high, the operation of the entire horizontal deflection circuit becomes unstable. Therefore, in order to compensate for this defect, conventionally, a reset circuit must be installed on the control board or an expensive horizontal integrated circuit must be used in front of the horizontal circuit of the monitor.

[Purpose of designation]

Accordingly, the present invention has been made to improve the shortcomings of the conventional horizontal deflection circuit, and provides a horizontal deflection protection circuit of the monitor which can prevent the operation instability of the horizontal deflection circuit generated when a low frequency horizontal synchronization signal is generated. Has its purpose.

[Configuration and Action of Design]

Hereinafter, the configuration, operation, and effects of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is an input unit 1 consisting of a capacitor (C ₁ ), a resistor (R ₁ ) and a diode (D ₁ ), resistors (R ₁ , R ₂ ), a diode (D ₂ ~ D ₇ ), a capacitor (C ₂ ~ C _5), the transistor (Q _1, Q ₂₎ and the flyback in the transformer (horizontal deflection circuit with the horizontal output circuit 3 configured as FT), the video signal output of the flyback transistor formers (FT) terminal ( VO) and the zener diode variable resistor (R ₄₎ between the ground (D _8), the variable resistor (R ₆₎ and a capacitor (C ₇₎ are connected in series, the variable resistor (R ₄₎ and a Zener diode (D _The resistor R ₅ is connected between the connection point of ₈ ) and the ground, and the collector is connected to the base of the transistor Q _{1 at} the connection point of the zener diode D ₈ and the variable resistor R ₅ . The base of transistor Q ₃ connected to ground is connected, and a low frequency horizontal synchronous signal HS is input from input unit 1 so that the video signal VO output terminal is high. When the voltage signal is outputted, it is fed back to turn off the transistor Q ₁ of the horizontal output circuit 3 to stop the operation of the horizontal deflection circuit.

Reference sign HS is a horizontal synchronization signal, DY is a deflection yoke, HV is a high voltage, FS is a focus adjustment signal, VO is a video signal, BT is a brightness adjustment signal, and B ⁺ is a power supply.

According to the present invention having the above-described configuration, in the initial state Ti immediately after power is supplied to the monitor as shown in FIG. 2, the horizontal synchronization signal HS as shown in (3-1) of FIG. Is applied to the input unit 1 at a low frequency, and the horizontal synchronization signal HS passes through the capacitor C ₁ and the resistor R ₁ to the base of the transistor Q ₁ in the horizontal output circuit 3. Since the transistor Q ₁ is turned on and off in accordance with the horizontal synchronization signal HS, and the transistor Q ₂ is turned on and off accordingly, a high voltage is induced at the output of the flyback transformer FT.

However, at this time, the voltage V _A of the connection point A is higher than the normal case as shown in (3-2) of FIG. 3 as described above. In the circuit according to the present invention, the voltage V _A is a recirculation circuit ( The voltage V _B of the connection point B is divided by the resistor R ₄ and R ₅ of 2), as shown in (3-3) of FIG. (However, the voltage V _B is set to a predetermined value by the variable resistor R _4. ) The voltage V _B is a capacitor C through the zener diode D ₈ and the resistor R ₆ . ₇ ) when the voltage across the resistor R ₅ becomes 0.7V or more as shown in (3-4) of FIG. 3, that is, when the zener diode D ₈ [scan] is turned on. Transistor Q ₃ [scan] is turned on.

Accordingly, while the low frequency horizontal synchronization signal HS, which is the initial state Ti, is applied to the input unit 1, the transistor Q ₃ is turned on, so that the horizontal synchronization signal HS as shown in FIG. Is not applied to the base of the transistor Q ₁ in the horizontal output circuit 3 and is bypassed to the ground side through the transistor Q ₃ so that the operation of the horizontal output circuit is stopped.

Here, the zener voltage of the zener diode D ₈ is set so as not to be conducted by the voltage V _B of the connection point B in the normal state Tn by the variable resistor R ₄ , and thus, the normal state Tn. the transistor (Q ₃₎ is turned on becomes off, and the turn-on period (T ₈₎ of the transistor (Q ₃₎ is a few hours of time constant of the charging capacitor (C ₇₎ discharged through the resistor (R ₆₎ (R ₆ C ₇ ), which is set such that the time T ₈ until the transistor Q ₃ is turned off passes the initial state Ti.

That is, when the frequency of the horizontal synchronous signal HS is supplied low during the initial state Ti when the monitor is supplied with power, the transistor Q ₃ is fed back by feeding back the high voltage output to the output side of the flyback transformer FT. By turning on, the entire operation of the horizontal circuit is stopped by turning off the transistor Q ₁ .

[Effect of design]

As described above, according to the present invention, it is possible to prevent the operation instability of the horizontal deflection circuit generated during the horizontal synchronization signal of low frequency with a simple circuit configuration without using a separate reset circuit or an expensive horizontal integrated circuit. Therefore, it is possible to reduce the cost and reliability of the product.

Claims (1)

Input part 1 consisting of capacitor C ₁ , resistor R ₁ , and diode D ₁ , resistors R ₂ , R ₃ , diodes D ₂ to D ₇ , and capacitors C ₂ to C ₅ ), A horizontal deflection circuit having a horizontal output circuit (3) consisting of transistors (Q ₁ , Q ₂ ) and a flyback transformer (FT), the video signal (VO) output terminal of the flyback transformer (FT) and ground A variable resistor (R ₄ ), a zener diode (D ₈ ), a variable resistor (R ₆ ), and a capacitor (C ₇ ) are connected in series between the variable resistor (R ₄ ) and the variable resistor (R ₄ ) and the zener diode (D ₈ ). A resistor (R ₅ ) is connected between the connection point and ground, and a collector is connected to the base of the transistor (Q ₁ ) at the connection point of the zener diode (D ₈ ) and the variable resistor (R ₆ ) and the emitter is connected to the ground. The base of the transistor Q ₃ is connected, a low frequency horizontal synchronization signal HS is input from the input unit 1, and a high voltage signal is output to the video signal VO output terminal. And to turn it off to turn off the transistor (Q ₁ ) of the horizontal output circuit (3) to stop the operation of the horizontal deflection circuit.