KR0120350Y1 - Circuit for preventing highly excess current - Google Patents

Abstract

The present invention relates to a high-pressure increase prevention circuit that can suppress the X-ray amount due to the increase in high pressure by suppressing the infinite increase in high pressure in the high-voltage circuit of the monitor, the present invention in the normal operation The shunt regulator is turned off to drive the high voltage and deflection drive circuits normally, but during abnormal operation, the shunt regulator is turned on as the high voltage of the flyback transformer increases to turn off the drive of the high voltage and deflection drive circuit. Increased X-ray dose can be suppressed even at high pressure. In addition, in the circuit configuration for preventing a high voltage increase, the circuit configuration is complicated by a plurality of shunt regulators and their peripheral circuits, but in the present design, the voltage configuration can be sufficiently suppressed even by using only one shunt regulator. This is easy.

Description

High pressure increase prevention circuit

The present invention relates to a high pressure increase prevention circuit applied to a large monitor, and more particularly, to a high pressure increase prevention circuit that can suppress an X-ray amount due to an increase in high pressure by suppressing an infinite increase in high pressure.

Conventional high-voltage circuit of the monitor, as illustrated in Figure 1, the accompanying drawings, a flyback transformer (FBT) in a shunt regulator connected to the gate side (G) of (SR _1), and the anode side is grounded shunt regulator (SR ₁ Is connected to the cathode side of the zener diode ZD, the cathode side of the shunt regulator SR ₂ and the Vcc terminal, and the base side of the zener diode ZD is connected to the base side of which the emitter side of the transistor TR ₂ is grounded. The anode side was connected, and the collector side thereof was connected to the base side of the transistor TR ₁ and connected to the emitter side and the Vcc terminal, and the collector side of the transistor TR was connected to the high voltage drive circuit 1. .

In the above description, the shunt regulator is a device in which the cathode and the anode are turned on and turned off according to the gate voltage. The shunt regulator is turned on when the gate voltage is 2.5V or higher. When it refers to the device that is turned off.

The high voltage circuit of the conventional monitor configured as described above properly controls the power applied to the base of the transistor TR ₂ when the shunt regulator SR ₁ operates normally when the voltage flowing through the flyback transformer FBT is normal. Done. When the transistor TR ₂ is turned on, the transistor TR ₁ connected to the collector thereof is turned on to supply driving power to the high voltage drive circuit.

In addition, when the voltage flowing through the flyback transformer FBT is low, the shunt regulator SR ₁ is turned off. When the shunt regulator SR ₁ is turned off, the transistor TR ₂ is also turned off. Accordingly, the transistor TR ₁ is also turned off because the base potential becomes high. This turns off the high voltage drive circuit.

However, the conventional high voltage circuit of a 17-inch or larger CRT monitor does not have a built-in semiconductor for preventing high voltage in the shunt regulator SR, and thus becomes inoperable when the voltage of the flyback transformer (FBT) rises. Since the high-voltage drive circuit could not be cut off, the X-ray amount increased due to the high pressure.

In addition, the configuration of the high-voltage circuit is very complicated to occupy a lot of space on the PCB board, and as the above high pressure is increased, it affects the components of other devices. Problems also occurred.

The present invention has been proposed to solve the above problems of the prior art, the present invention is to increase the high pressure to suppress the X-ray amount according to the increase in high pressure by suppressing the infinite increase in high pressure The purpose is to provide a protection circuit.

The present invention for achieving the above object is a flyback transformer for boosting the voltage input to the primary side to a high pressure;

It is placed between the flyback transformer and the high voltage and deflection drive circuit, and when the voltage of the flyback transformer rises, the internal high voltage increase prevention unit turns off the shunt regulator to turn off the driving of the high voltage and deflection drive circuit. It is done.

1 is a high voltage circuit diagram applied to a conventional monitor,

2 is a high pressure increase prevention circuit diagram according to the present invention,

* Explanation of symbols for main parts of the drawings

10: high pressure increase prevention unit 20: high pressure / deflection drive circuit

SR ₃ : Shunt regulator TR ₃ , TR ₄ : Transistor

D ₁ -D ₃ : Diode C ₁ -C ₃ : Capacitor

R ₁ -R ₇ : resistance

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

2 is a high pressure increase prevention circuit diagram of the present invention for preventing a high pressure increase, comprising: a flyback transformer (FBT) for boosting a voltage input to the primary side to a high pressure; When the voltage of the flyback transformer FBT rises between the flyback transformer FBT and the high voltage and deflection drive circuit 20, the internal shunt regulator SR ₃ is turned on to turn on the high voltage and deflection drive circuit. It consists of a high pressure increase prevention part 10 which turns off the drive of the circuit 20.

In the above, the high voltage increase prevention unit 10 includes a diode D1 rectifying the output voltage of the flyback transformer FBT, a capacitor C1 charging and discharging the voltage rectified by the diode D1, and And voltage divider resistors R1 and R2 for dividing the voltage discharged from the capacitor C1, capacitor C2 for charging and discharging the voltage divided by the voltage divider resistors R1 and R2, and the capacitor C2. The shunt regulator SR ₃ turned on or off by the discharge voltage of the shunt, and the cathode side of the shunt regulator SR ₃ and the base end are connected to turn on or turn the shunt regulator SR ₃ . Driving is controlled by an on / off control operation of the transistor TR ₃ in response to -off and an on / off control operation of the transistor TR ₃ to control the driving of the high voltage and deflection drive circuit 20. It consists of a transistor (TR _4).

In the high-voltage increase prevention circuit according to the present invention configured as described above, first, when the flyback transformer FBT operates normally during the normal operation, the voltage at the point A becomes lower than the voltage of the flyback transformer FBT (the gate voltage is 2.5V or less). ) The shunt regulator SR ₃ is turned off, and as the shunt regulator SR ₃ is turned off, the transistor TR3 connected to its cathode side and the base end is also turned off. The transistor TR4 is turned on by turning off the transistor TR3 and is applied to the high voltage drive and the deflection drive circuit 20 through the emitter side and the collector side of the transistor TR4 with the Vcc power source turned on. And the deflection drive circuit 20 operates normally.

However, if the voltage of the flyback transformer FBT rises due to an abnormal operation and the voltage of the flyback transformer FBT rises, the voltage at the point A (R voltage: R2 / (R1 + R2) * B) increases, causing the shunt regulator SR ₃ to The shunt regulator SR ₃ is turned on, and the Vcc power source is grounded by the shunt regulator SR ₃ turned on through the resistors R ₅ and R ₃ to be higher than the breakdown voltage. _The low (L) potential is applied to the base side of ₃ ) to turn on the transistor TR ₃ .

As the transistor TR ₃ is turned on, the Vcc power source flows through the emitter side, the collector side of the transistor TR ₃ , and the diode D ₂ , and simultaneously to the base side of the transistor TR ₄ through the resistor R ₆ . When the transistor TR ₄ is turned off, the high voltage and deflection drive circuit 20 is cut off to prevent the high voltage from increasing.

As described above, according to the present invention, when the abnormal operation of the high voltage circuit is performed, the shunt regulator is turned on as the high voltage of the flyback transformer increases so that the driving of the high voltage and deflection drive circuits can be turned off. As in the related art, there is an advantage of suppressing an increase in the amount of X-rays generated due to the inoperability of the shunt regulator.

In addition, although a plurality of shunt regulators are conventionally used in a circuit configuration for preventing a high voltage increase, the present invention has an advantage in that the overall circuit configuration can be easily suppressed because only a single shunt regulator can sufficiently suppress the high pressure increase.

Claims (2)

A flyback transformer for boosting the voltage input to the primary side to a high voltage; It is placed between the flyback transformer and the high voltage and deflection drive circuit, and when the voltage of the flyback transformer rises above a certain voltage, an internal shunt regulator is turned on to prevent the increase of the high pressure that turns off the driving of the high voltage and deflection drive circuit. High pressure increase prevention circuit, characterized in that configured to include. The capacitor of claim 1, wherein the high voltage increase prevention unit 10 charges and discharges the diode D1 rectifying the output voltage of the flyback transformer FBT and the voltage rectified by the diode D1. (C1), voltage divider (R1, R2) for dividing the voltage discharged from the capacitor (C1), capacitor (C2) for charging and discharging the voltage divided by the voltage divider (R1, R2), and the The shunt regulator SR ₃ which is turned on or off by the discharge voltage of the capacitor C2, and the cathode side of the shunt regulator SR ₃ and the base end are connected to turn the shunt regulator SR ₃ . -The high-voltage drive and the deflection drive circuit 20 in which driving is controlled by interlocking with a transistor TR3 controlled on / off in response to an on or off-off, and an on / off control operation of the transistor TR3. High-voltage increase, characterized in that consisting of a transistor (TR4) for controlling the driving of Protection circuit.