KR950000819Y1 - Fire protecting circuit for monitor - Google Patents

Abstract

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Description

Fire protection circuit when the horizontal deflection stage is open

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

5: horizontal deflection stage 10: rectification and smoothing

15: voltage divider 20: switching unit

D ₁ , D ₂ : Diodes R ₁ to R ₄ : Resistance

C ₁ ~ C ₄ : Capacitor

[Details of Utility Model]

The present invention relates to a horizontal deflection stage for driving a cathode ray tube, and in particular, a horizontal deflection stage for preventing fire by automatically turning off the TV by using a fail-safe function when the horizontal deflection stage is opened. It relates to a fire protection circuit when open.

If a part is turned off after the horizontal deflection stage of the TV, a spark occurs due to high pressure, and such a spark may cause a fire inside the TV.

Therefore, it is necessary to prevent fire that may occur when opening the horizontal deflection stage.

In addition, the existing TV has a fail-safe function that turns off the TV when the high pressure of the deflection stage is increased and the X-ray is emitted.

In the present invention, a fail-safe circuit is connected to the horizontal deflection stage, and when the horizontal deflection stage is opened, a fail-safe circuit which prevents over-emission of the X-rays is driven to prevent the occurrence of fire by turning off the TV.

In other words, when the part after the horizontal deflection stage is opened for some reason, the peak value is larger and the width is much wider than usual, and after rectifying the pulse, the video and chroma synthesis IC (LA7625) By applying a fail-safe pin, the TV will automatically turn off when the horizontal deflection stage is opened to prevent fire.

When described in detail by the accompanying drawings of the present invention as follows.

The horizontal output transistor Q ₁ controls the horizontal deflection coil (H-DY) and at the same time controls the rear fins of the shaded pin cushion transformer (T ₁ ), linearity coil (L ₂ ) and condenser (C _S ). In the horizontal deflection stage (5), the rectifying and smoothing unit (10) for rectifying peak pulses is connected to the horizontal deflection stage (5), and the output of the rectifying and smoothing unit (10) is a voltage at the voltage distribution unit (15). After distribution, the switching unit 20 is configured to control a switching operation, and the voltage of the pin 18 of the video and chroma synthesis IC 25 is changed according to the operation of the switching unit 20.

At this time, the pin 18 of the video and chroma synthesis IC LA7625 performs a fail safe function and turns off the TV when a high level is applied.

That is, the horizontal drive pulse of the horizontal deflection stage 5 is blocked by the DC component in the capacitor C ₁ and passes only the peak pulse, and is rectified and smoothed by the diode D ₁ and the capacitor C ₃ to change to DC voltage. The DC voltage of the rectifying and smoothing unit 10 is distributed by the resistors R ₃ and R ₃ to turn on / off the diode D ₂ .

At this time, when the horizontal deflection stage 5 is normal, the voltage divided by the voltage divider 15 is 0.5 V or less, and when the horizontal deflection stage 5 is turned off, the voltage distributed by the voltage divider 15 is 0.5V. When the horizontal deflection stage 5 is opened, the voltage divided by the voltage divider 15 is equal to or greater than 0.5V, and is configured to turn on the diode D ₁ .

Therefore, when the diode D ₁ is turned on, the fail safe function of the video and chroma synthesis IC 25 is operated to turn off the TV.

As such, the present invention is designed to turn off the TV before a fire occurs by enabling the fail-safe function of the video and chroma synthesis ICs to operate by using a peak voltage that is much higher than usual when the horizontal deflection stage of the television is opened. Explain the effect.

The horizontal deflection stage 5 in which horizontal drive pulses are applied to perform horizontal deflection includes a horizontal output transistor Q ₁ , a horizontal deflection coil H-DY, a shade pincushion transformer T ₁ , and a linearity coil L _2. ) And a known circuit composed of a capacitor (Co) (Cs) and the like, and a description thereof will be omitted.

The horizontal drive pulse flowing in the horizontal deflection coil H-DY of the horizontal deflection stage 5 is blocked by direct current through the capacitor C ₁ , and only the peak pulse is passed, and the peak passed through the condenser C ₁ . The pulse is rectified in the diode D ₁ and then smoothed in the capacitor C ₃ and converted into a DC voltage.

At this time, the capacitor (C2) connected in parallel to the rectifying diode (D1) is for switching removal and the capacitor (C1) is a capacitor with a high breakdown voltage for the AC pass.

As such, the peak pulse of the horizontal deflection stage 5 is converted into a DC voltage in the rectifying and smoothing unit 10 after passing through the condenser C1, and the DC voltage of the rectifying and smoothing unit 10 is converted into a resistance of the voltage distribution unit 15. The voltage is divided by (R2) and (R3) and then applied to the diode D2.

At this time, the diode D2 serves as a switching role. When the diode D2 is 0.5 V or more, the diode D2 is turned off.

On the other hand, if any part of the horizontal deflection stage 5 is turned off than when the horizontal deflection stage 5 is normally operated, a larger peak value and a wider pulse are generated. After the conversion to the voltage, the DC voltages distributed by the voltage divider 15 are different from each other.

That is, when any part of the horizontal deflection stage 5 is opened, the pulse width is wider and the peak value is larger than normal, so the rectified smoothed DC voltage in the rectifying and smoothing unit 10 is horizontally deflected than normal. When the stage 5 is opened, it is higher and the DC voltage of the rectifying smoother 10 is lower when the voltage of the divided voltage divider 15 is also normal as described above.

Therefore, when the resistance values of the resistors R ₁ , R ₂ , and R ₃ are set well, the voltage appearing in the voltage divider 15 when it is normal is 0.5 V or less, and any part of the horizontal deflection stage 5 When opened, the voltage appearing in the voltage divider 15 is made to be 0.5V or more.

That is, when the TV set is in normal operation, the DC voltage of the rectifying and smoothing unit 10 is distributed by the voltage distribution unit 15, and then the diode D2 is applied to the diode D2 so that the diode D2 is turned off. Therefore, the pin 18 of the video and chroma synthesis IC 25 is connected to the ground terminal by the resistor R4.

However, if any part of the horizontal deflection stage 5 is open, the peak value is much larger and a wider peak pulse is generated than in normal operation, so the voltage rectified in the rectifying and smoothing unit 10 is larger than that in normal operation. This voltage is divided by more than 0.5V in the voltage divider 15 and applied to the diode D2, so that the diode D2 is turned on to apply a high level voltage to the pin 18 of the video and chroma IC 25. Is authorized.

In this case, since the pin 18 of the video and chroma synthesis IC 25 is a fail safe function pin, when a low level is applied to the pin 18 of the video and chroma synthesis IC 25, the fail safe function is not operated and the pin 18 is not operated. When the high level is applied to the fail safe function forcibly turning off the TV is activated.

Therefore, during normal TV operation, the low level is applied to the pin 18 of the video and chroma synthesis IC 25 so that the set operates normally without fail safe operation, but when the horizontal deflection stage 5 is off, the video and chroma synthesis IC Since the high level is applied to the pin 18 of 25, the fail-safe function is operated to forcibly turn off the TV to prevent the risk of fire that may occur when the horizontal deflection stage 5 is opened.

As described in detail above, the present invention utilizes a pulse pulse that is much higher than usual when a horizontal deflection stage is opened, and a large pulse width is generated to rectify and divide the peak pulse, and then input a fail safe function terminal. By controlling the level, the TV is forcibly turned off by fail safe operation when the horizontal deflection stage is opened.

Therefore, when the horizontal deflection stage is opened, there is an effect of eliminating the risk of fire in the set due to the spark due to high pressure.

Claims (2)

A TV comprising a horizontal deflection stage 5 and a video and chroma synthesis IC 25 having a fail-safe function, comprising: a rectifying and smoothing unit 10 for rectifying and smoothing the drive pulse of the horizontal deflection stage 5; The voltage divider 15 for dividing the DC voltage of the rectifying and smoothing unit 10 and the voltage dividing voltage of the voltage dividing unit 15 are switched to fail-safe function pins 18 of the video and chroma synthesis IC 25. A fire protection circuit when the horizontal deflection stage is open, characterized in that the switch unit 20 controls the input level. The voltage of the voltage divider 15 at the opening of the horizontal deflection stage 5 turns on the switching unit 20 and the diode D2 so that the pins of the video and chroma synthesis IC 25 18) A fire protection circuit when the horizontal deflection stage is open, characterized in that the fail safe operating voltage is applied to.