KR930002667Y1 - Over voltage protecting circuit for tv - Google Patents

Abstract

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Description

TV's overvoltage protection circuit

1 is an overvoltage prevention circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

10: overvoltage detection unit 20: power switch control unit

30: power drive unit 40: crystal oscillator protection circuit

50: Micom power stage RL ₁ : Relay

ZD1: Zener Diodes D1-D7: Diodes

The present invention relates to the overvoltage protection of a television, and more specifically, by applying a Safe Safe (F / S) circuit to forcibly turn off the relay to cut off the AC power supply to prevent the elements of the television from overvoltage. The present invention relates to an overvoltage protection circuit of a protected television dog.

When the high voltage of the TV's horizontal circuit rises, the crystal oscillator protection circuit is used to automatically shut off the TV to protect the TV from X-Ray emission. However, the relay is turned off only when the TV's power is completely turned off. In the above, the relay is turned off internally. Therefore, the relay is turned on and the power remains at no load. However, the TV circuit itself is overloaded. There is a problem that the life of the TV is shortened.

This invention is to solve this problem, and the purpose of this invention is to protect the television from overvoltage by forcibly turning off the relay by using the operation detection voltage when the F / S circuit is operated due to the high voltage of the horizontal circuit. It is to provide an overvoltage protection circuit of a television which makes the life of the television permanent by reducing defects and improving reliability.

The characteristics of this design to achieve this purpose are an overvoltage detector that detects a certain level of high voltage by using diodes, zener diodes, and transistors, and power supply terminals, transistors, diodes, and relays of microcomputers. A power supply circuit for a television having a power supply unit for applying AC power to elements of the television, comprising: a power switch control unit for controlling the relay to be forcibly turned off in response to a signal of the overvoltage detection unit between the overvoltage detector and the power driver; It is in the overvoltage protection circuit of the television which was made.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention in detail as follows.

1 is an overvoltage prevention circuit diagram according to the present invention, which includes an overvoltage detection unit 10 for detecting a high voltage, a power switch control unit 20 for controlling the relay RL1 to be forcibly turned off, and a relay on and off. It consists of a power drive unit (30).

The overvoltage detector 10 connects the F / S terminal F / S to the emitter side of the switching transistor Q1 through the backflow prevention diode D1 and the bias resistors R2 and R3. A filter capacitor (C1) (C2) having a zener diode (ZD1) for constant voltage connected to the base side of (Q1) and grounded, and one end of the transistor (Q1) grounded at the collector side. This is achieved by connecting the bias resistor R1.

And the resistor (R1) is connected to the crystal oscillator protection circuit 40 to automatically cut off the TV in the high pressure.

On the other hand, the power switch control unit 20 for controlling the relay RL1 to be forcibly turned off causes the detection diode R2 connected to the capacitor C1 of the overvoltage detection unit 18 to have a base side of the redundant transistor Q2. To the collector side of the transistor Q2 through a bias resistor R4 to the power supply B +, and to the emitter side of the transistor Q2 through a bias resistor R5 and R6 to prevent backflow. It is made by connecting (D3).

The power supply driver 30 for turning on and off the relay RL1 connects the diode D3 of the power switch driver 20 to the base side of the switching transistor Q3, and also through the microcomputer resistor R7. Connect the power stage 50 of the. And the emitter side of the ground and by connecting a relay (RL1) side of the collector at one end of the capacitors (C3), (C4), standard power supply via a reverse-current preventing diode (D5) (B ₁ +) and the AC power source of the transistor (Q3) (AC) is connected so that the other end is connected to the power supply terminal (B ₂ +) of the elements through the rectifying diode (D6), the capacitor (C5).

In this configuration, the high voltage of the horizontal circuit increases and the F / S circuit (not shown) operates and the F / S terminal (F / S) voltage goes from low to high.

When the high signal applied to the transistor Q1 through the reverse current prevention diode D1 of the overvoltage detector 10 and the bias resistors R2 and R3 is higher than the breakdown voltage of the zener diode ZD1, the transistor Q1 Is applied to the crystal oscillator protection circuit 40 which automatically shuts off the television when the power switch control unit 20 and the high voltage switch are turned on. At this time, when the high signal is applied to the transistor Q2 through the detection diode D2 of the power switch controller 20 and amplified and then applied to the switching transistor Q3, the transistor Q3 is in a conductive state. The relay RL1 is forcibly turned off to cut off the AC power source AC. The relay RL1 is forcibly turned off because it is in an on state unless the main power is cut off even if the television is cut off automatically.

In addition, when the high voltage of the one horizontal circuit is normally operated and the F / S circuit does not operate, the F / S terminal (F / S) voltage becomes low and becomes a low signal in the voltage detector 18 and the power switch controller 20 Also, when the signal is applied to the transistor Q3 as a low signal, the operation of the transistor Q3 controls the relay according to the on / off of the power supply terminal 50 of the microcomputer regardless of the F / S terminal voltage.

Therefore, when the high voltage of the horizontal circuit increases, the television is automatically cut off and the relay is forcibly turned off to protect the elements of the television from overload.

As described above, this design forcibly turns off the relay when the high voltage of the horizontal circuit increases to cut off the AC power, thereby protecting the television from overvoltage and reducing the defective rate of the device. In particular, it is possible to reduce the defective rate of the constant voltage transistor STR, which is sensitive even to a weak AC power supply, to increase the reliability of the television and to make the TV life permanent.

Claims (2)

The diode D1, the control diode ZD1, and the transistor Q1 are overvoltage detectors 10 for detecting a high voltage of a predetermined level or more, the microcomputer power supply terminal 50, transistors Q3, diodes D5, In the power supply circuit of a television having a power source driving section 30 which becomes an electric power source of the television according to (D6), (D4) and the relay RL1 and the relay RL1 is turned on and off. And a power switch controller 20 for controlling the relay RL1 to be forcibly turned off according to the signal of the overvoltage detector 10 between the overvoltage detector 10 and the power driver 30. Overvoltage protection circuit. The power switch control unit 20 of claim 1, the detection diode (D2), the collector resistor (R4), the emitter resistor (R5), the EMI connected to the capacitor (C1) of the overvoltage detector (10). Amplifying transistor D2 having a rotor output resistance R6 and receiving a pressure through the diode D2, the emitter output resistance R6, and a switching transistor Q3 of the power supply driver 30. And a reverse flow diode (D3) provided between the bases of the overvoltage preventing circuit of the television.