KR100198284B1 - Horizontal deflection protection circuit - Google Patents

Abstract

The present invention is intended to protect the horizontal deflection circuit when the screen voltage is increased or the beam current abnormally increases.

In the conventional deflection circuit, when the beam current, which is the output current of the flyback transformer, flows more than the specified value (0.5 mA or less) of the flyback transformer, the input current also increases, And the operation reliability of the flyback transformer is lowered and the power source unit is not operated.

In order to solve the above problems, the present invention prevents the horizontal deflection circuit from operating in an abnormal state by operating the CPT power saving circuit when the screen voltage volume of the flyback transformer is increased or the beam current abnormally increases, , To protect the horizontal deflection circuit.

Description

Horizontal deflection protection circuit.

The present invention is intended to protect the horizontal deflection circuit when the screen voltage is increased or the beam current abnormally increases.

1, the configuration of the deflection circuit includes a transistor Q1 for receiving and receiving a horizontal output voltage, a horizontal deflection coil H-DY1, a linear correction capacitor C1, And a flyback transformer FBT1 for switching the B + power supply according to a pulse generated by the transistor Q1 to generate a high voltage at an anode terminal of the monitor, And an ABL (Auto Beam Limit) adjusting unit 2 for adjusting the beam current of the CPT 1 and determining the maximum brightness of the CPT.

Reference numerals D1 to D3 denote diodes, C2 denotes a tuning capacitor, C3 denotes a capacitor, C4 denotes a capacitor, G4 denotes a focus voltage, and G2 denotes a screen voltage.

In the deflection circuit constructed as described above, the transistor Q1 is switched to receive the applied horizontal output voltage, and the flyback transformer FBT1 generates a high voltage by the pulse voltage applied in accordance with the switching of the transistor Q1, And supplied to the anode terminal.

The horizontal deflection coil H-DY1 receives the collector voltage of the transistor Q1 and generates a horizontal deflection current to deflect the CPT.

Then, the beam current of the flyback transformer FBT1 is adjusted by the ABL adjusting unit 2. [

The ABL adjusting unit 2 is configured to limit the maximum luminance output of the CPT to about 30 KL. The ABL adjusting unit 2 is a circuit for limiting the beam current, When the voltage G2 is higher than the normal voltage (700 V), normal operation is not performed.

For this reason, the ABL adjusting unit 2 is required to maintain a normal screen, and does not operate in an abnormal state.

That is, when the resistance of the screen voltage G2 is changed to the maximum, the beam current of the flyback transformer FBT1 flows about 0.5 mA more than the normal (0.3 mA in the normal case).

When the beam current ib which is the output current of the flyback transformer FBT1 flows more than the specified value (0.5 mA or less) of the flyback transformer FBT1, the input current ia also increases, A phenomenon of exceeding the specified value occurs.

As a result, operational reliability of the flyback transformer is lowered, and the power source unit is not operated.

In order to solve the above problems, the present invention prevents the horizontal deflection circuit from operating in an abnormal state by operating the CPT power saving circuit when the screen voltage volume of the flyback transformer is increased or the beam current abnormally increases, , To protect the horizontal deflection circuit.

FIG. 1 shows a conventional horizontal deflection circuit diagram

FIG. 2 is a block diagram of a horizontal deflection protection circuit

The configuration of the horizontal deflection protection circuit of the present invention is the same as that of the conventional art with reference to Fig. 2, and the same reference numerals are used to denote the same parts.

A horizontal deflection section (1) for deflecting a CPT by generating a horizontal deflection current and an ABL circuit section (2) for adjusting a beam current of the horizontal deflection section (1) A horizontal deflection circuit protecting part 3 for sensing the beam current of the horizontal deflection part 1 and sensing the abnormally increasing beam current to operate the CPT power saving part 4 to block the operation of the horizontal deflection part 1, Zener diodes ZD1 and ZD2 for receiving the voltage of the output terminal A of the ABL adjusting unit 2 and determining the driving voltage condition of the transistor Q2, And transistors Q2 and Q3 which are switched in accordance with the voltage conditions set by the switches ZD1 and ZD2 to drive the CPT power saving section 4. [

Reference numerals R1 to R3 denote resistors, and capacitors C5 and C6 denote capacitors.

The horizontal deflection protection circuit of the present invention configured as described above can automatically protect the horizontal deflection circuit by operating the CPT power saving circuit in the abnormal operation of the CPT. When the CPT operates normally, the voltage of the 'A' It changes from about 30V to 5V according to the luminance change of the CPT and operates normally.

However, when the beam current ib is increased as described above, when the screen voltage of the flyback transformer FBT1 is adjusted to the maximum, Or the other circuit corresponding thereto, the potential of the point A drops below the normal voltage due to the increase of the beam current ib.

That is, when the potential of the point A drops to 5 V or less, the horizontal deflection circuit protection unit 3 operates the CPT power saving unit 4 to stop the deflection. The potential of the point "A" The base potential of the transistor Q2 is lowered by the zener diodes ZD1 and ZD2, so that the transistor Q2 is turned on.

When the transistor Q2 is turned on, a high signal is applied to the CPT power saving section 4 through the diode D2, so that the CPT power saving section 4 operates.

At this time, the CPT power saving unit 4 continues to operate as long as the cause of malfunction of the circuit due to the voltage charged in the capacitor C2 through the resistor R2 is not removed.

In this way, the CPT power-saving circuit is operated to stop the operation of the horizontal deflection circuit in the abnormal operation of the CPT, thereby protecting the horizontal deflection circuit and suppressing the emission of X-rays generated due to the increase of the beam current .

Claims (1)

A horizontal deflection section (1) for deflecting a CPT by generating a horizontal deflection current and an ABL circuit section (2) for adjusting a beam current of the horizontal deflection section (1) A horizontal deflection circuit protecting part 3 for sensing the beam current of the horizontal deflection part 1 and sensing the abnormally increasing beam current to operate the CPT power saving part 4 to block the operation of the horizontal deflection part 1, Zener diodes ZD1 and ZD2 for receiving the voltage of the output terminal A of the ABL adjusting unit 2 and determining the driving voltage condition of the transistor Q2, And transistors Q2 and Q3 which are switched in accordance with a voltage condition set by the ZD1 and ZD2 to drive the CPT power saving section 4. 3. The horizontal deflection protection circuit according to claim 1,