KR200188159Y1 - Regulation correct circuit - Google Patents

Abstract

The present invention relates to a regulation correction circuit for automatically adjusting the high pressure correction according to the beam change amount in a CRT-based image reproducing apparatus.

The present invention enables automatic adjustment of high-voltage correction according to the amount of change of the beam current, so that PIP can be realized without screen rumble even in a large set by using the FBT with no built-in capacitor block. As it is applied to the port and applied directly to the high voltage correction terminal, the high voltage correction is performed according to the beam current change to stabilize the regulation.

Description

Regulation correct circuit

The present invention relates to a regulation correction circuit for automatically adjusting the high pressure correction according to the beam change amount in a CRT-based image reproducing apparatus.

In the conventional regulation correction circuit, as shown in FIG. 1, the ABL power supply B ⁺ is applied to the ABL port of the FBT via the resistors R ₅ -R ₇ while the diode D ₁ and the resistor R ₂ − R ₄ ) is connected to control the driving of transistor Q ₁ and the ABL current is applied to the emitter of transistor Q ₁ and at the same time to the high voltage compensation terminal EHT via resistors R ₈ -R ₁₀ . It is configured to be.

In this case, the point B voltage applied to the ABL port of the FBT is changed according to the beam current variation of the CRT and the point A voltage to which the ABL current is applied by the change of the B point voltage is changed only when the voltage of the high voltage correction terminal (EHT) is applied. This variable is high pressure correction is made.

Therefore, if the screen is not bright, the high pressure correction is made, but if the screen is bright, the high pressure correction is not properly, there was a problem that the screen is bent.

That is, when the screen is dark, the point B voltage applied to the ABL port of the FBT becomes high, and accordingly, the transistor Q ₁ is turned off, thereby increasing the ABL current applied to the high voltage correction terminal EHT at the point A, thereby performing normal high voltage correction.

On the other hand, when the screen is bright, the point B voltage applied to the ABL port of the FBT is lowered, and the transistor Q ₁ is turned on, and the point A voltage applied to the high voltage correction terminal EHT is changed to perform high voltage correction.

However, the direct high pressure compensation is not performed according to the point B, that is, the beam variation of the CRT.

As the ABL current is directly applied to the high-voltage correction terminal (EHT), the high-voltage correction is not properly performed due to the change in the beam current of the CRT. Therefore, when the PIP or TTX is added, the screen flickers due to poor regulation. To add more, expensive FBT with condenser block should be used.

The present invention allows the high pressure compensation to be automatically adjusted according to the beam current variation, so that a PIP can be added to a large set even using a FBT without a built-in capacitor block.

As the power is applied to the ABL port of the FBT at the same time, the voltage is applied directly to the high voltage correction terminal, so that the high voltage correction is always performed according to the change of the beam current to stabilize the regulation.

The present invention is made by applying ABL power to the base of the transistor to which the ABL current is applied and to the ABL port of the FBT and directly to the high voltage compensation terminal. Done.

1 is a conventional circuit diagram

2 is a circuit diagram of the present invention

[Explanation of symbols on the main parts of the drawings]

Q ₁ : transistor C ₁ , C ₂ : condenser

R ₁ -R ₁₁ : Resistor D ₁ , D ₂ : Diode

As shown in FIG. 2, the ABL power source B ⁺ is applied to the ABL port of the FBT via the resistors R ₅ -R ₇ and the capacitor C ₂ , while the resistor R ₄ and the diode D _In a circuit configured to be applied to the base of the transistor Q ₁ through ₁ ),

The power applied to the ABL port of the FBT is distributed and applied by a resistor (R ₁₁ ) connected to ground, and the power distributed by the resistor (R ₁₁ ) is a resistor (R ₈ -R ₁₀ ) and a capacitor (C ₃ ). It is configured to be applied to the high pressure correction terminal (EHT) through.

In this invention, the H point potential is changed according to the change of the screen brightness, and thus the potential applied to the ABL port and the high-voltage correction terminal (EHT) of the FBT is changed by the screen brightness (that is, the beam current). High pressure compensation is automatically adjusted.

In other words, if the screen is dark and the voltage applied to the H point becomes high, the H point at this time is distributed to the resistors (R ₅ -R ₆ ) (R ₁₁ ) and applied to the ABL port of the FBT, while the resistors (R ₈ -R ₁₀ ) As it is distributed to the high pressure compensation terminal (EHT), the voltage applied to the high pressure compensation terminal (EHT) is changed according to the voltage applied to the ABL port of the FBT so that the normal high pressure compensation is made. When the voltage applied to the H-point voltage at this time is also applied to the ABL port and the high voltage correction terminal (EHT) of the FBT, the voltage applied to the high voltage correction terminal (EHT) varies according to the voltage applied to the ABL port of the FBT. Normal high pressure calibration is achieved.

This design of the present invention always changes the AC / DC component applied to the high-voltage correction terminal (EHT) according to the beam current applied to the ABL port of the FBT at H point, so that normal regulation correction is always performed according to the change of the beam current. .

Therefore, perfect high pressure compensation can be achieved according to the beam current, and high pressure compensation according to the beam current can be achieved even using a small FBT that does not have a built-in capacitor block.

The present invention changes the AC / DC component applied to the high voltage compensation terminal according to the beam current applied to the ABL port of the FBT, while using a small FBT without a condenser block capable of achieving high pressure compensation according to the beam current. Alternatively, the PIP function can be performed.

In addition, the use of FBT without built-in condenser block increases the installation space and increases productivity at a low price.

Claims (1)

ABL of power (B ⁺⁾ is a resistance (R ₅ -R ₇₎ and a capacitor is applied to the port of the ABL FBT other hand via a resistor (C ₂₎ (R ₄₎ and a diode transistor (Q ₁₎ through (D ₁₎ In the circuit configured to be applied to the base, The power applied to the ABL port of the FBT is distributed and applied by a resistor (R ₁₁ ) connected to ground, and the power distributed by the resistor (R ₁₁ ) is a resistor (R ₈ -R ₁₀ ) and a capacitor (C ₃ ). Regulation correction circuit, characterized in that configured to be applied to the high-voltage correction terminal (EHT) via.