KR910006192Y1 - Abl compensation circuit - Google Patents

Abstract

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Description

Automatic luminance limiting (ABL) compensation circuit device

1 is a circuit diagram of the present invention.

2 is a conventional circuit diagram.

* Explanation of symbols for main parts of the drawings

R ₁ -R ₁₇ : Resistor C ₁ -C ₅ : Capacitor

D ₁ -D ₆ : Diodes Tr: Transistors

VR ₁ , VR ₂ : Variable resistor A: Video signal controller

PIF: Video signal terminal ABL: Automatic luminance control unit

The present invention relates to an automatic luminance limiting (ABL) compensation circuit of a television receiver.

In the conventional automatic brightness control circuit, a beam current (IB) flowing through the CRT ANODE of the CRT flows in a bright screen so that the beam current IB applied thereto does not flow above a certain current. As shown in FIG. 2, the contrast control terminal (abbreviated as CC after CONTTRAST CONTROL) and the brightness control terminal (abbreviated as BC after BRIGHTNESS CONTROL) are connected to the image signal controller 1 so that the variable resistor for voltage distribution (V ₂₁ , VR) ₂₂ ) by connecting resistors (R _21- R ₂₈ ) and diodes (D ₂₁ , D ₂₃ ) to the contrast control terminal (CC) and luminance control terminal (BC) by the resistance values of the variable resistors (V ₂₁ , VR ₂₂ ). ), The voltage was dropped constantly.

However, in the above case, in the case of a bright screen, that is, when a large amount of current B is applied to the CRT ANODE of the CRT, the resistors R ₂₄ , R ₂₅ , R ₂₉ , R ₃₀ and the diode D ₂₁ , _D23 ) and the auto-brightness control unit ABL composed of a condenser C ₂₃ operate to simultaneously drop the auto-brightness and contrast voltage at point A, thereby suppressing the current I of the beam, thereby lowering the black level. As a result, the video signal near the hump level becomes dark, and the contrast is not distinguished, and there is a drawback of not being able to maintain a clear image of the screen.

In this regard, the present invention was designed in consideration of this point, and in the case of a bright screen (a signal having a high broadcast signal level), the DC contrast voltage is increased by its signal level to stabilize the black level, and at the same time the color signal is proportional to the luminance signal. The purpose is to allow a change to be obtained to obtain an appropriate image.

This will be described based on the attached FIG. 1 as follows.

The variable resistor VR ₁ , the resistors R _1- R ₄ , the capacitor C ₁ , and the diode D ₂ are connected to the image signal controller A to be connected to the contrast control terminal CC and the variable resistor VR ₂₎ and the resistor (R ₅ -R ₆₎ and the capacitor (C ₂₎ and a diode (D ₃₎ connected by connecting to the brightness control terminal (BC) and the supply voltage (Vcc ₄₎ a capacitor (C ₄₎ and a diode ( D ₄ ) is connected in parallel to the resistor (R ₁₅ , R ₁₆ ) and the resistor (R ₁₇ ) connected in series to the driving power supply (VD) in common to the coil (L ₁ ) (L ₂ ) and diode (D ₅ , D ₆ ) A diode (D ₁ ) and a resistor (R ₁₄ ) connected between a flyback transformer (FDT) and a capacitor (C ₅ ) composed of a brightness control terminal (BC) and a resistor (R ₆ , R ₇ ). Is connected to the collector of the transistor Tr connected to the emitter (R ₁ ) with the resistor (R ₁₂ , R ₁₃ ) in common, and the capacitor (C ₃ ) and the resistor (R ₉ , R ₁₀ ) are parallel to the base. Connect and configure.

Unexplained PIF is an image amplification terminal and CRT ANODE is an anode terminal.

Referring to the effect of the present invention configured as described above are as follows.

When the driving power supply VD (approximately 112 V) is applied to the flyback transformer (FBT) through the resistors R ₁₅ -R ₁₇ , the beam current IB is applied to the CRT through the CRT ANODE terminal. It will flow to the anode (not shown).

In the case of a dark screen, the beam current IB decreases so that the voltage drop due to the articulator resistors R _{15 and} R ₁₇ decreases, so that the supply voltage Vcc ₄ (about 12 V), which is a detection voltage of the automatic luminance control unit ABL, is reduced. The diode D ₄ becomes high and conducts in the forward direction.

At this time, the voltage of the connection point (E) becomes more than the supply voltage (Vcc ₄ ) + 0.6V, when applied to the cathode of the diode (D ₂ , D ₃ ) from the supply (Vcc1, Vcc ₃ ) resistors R ₂ , R ₄ Diode (D ₂ ) (D ₃ ) is turned off by being higher than the voltage applied to its anode via R ₅ , R ₇ .

Therefore, the contrast adjustment volume of the variable resistor (VR ₁₎ and a brightness control volume adjustment of the variable resistor (VR ₂₎ partial pressure in the brightness control terminal (BC) of the contrast control terminal (CC) of the video signal control unit (A) by a resistance ratio of By applying the applied voltage, the intensity of the beam according to the black level is determined.

At the same time, when a low level signal is input from the image frequency amplifier (not shown) to the image amplifier terminal PIF, the transistor Tr is turned off.

On the other hand, in the case of a bright screen, the driving power supply VD is applied to the flyback transformer FBT through the resistors R ₁₅ -R ₁₇ and the current (CRT ANODE) of the CRT anode is applied to the anode of the CRT. As the IB flows a lot, the voltage of the connected E of the automatic luminance control unit ABL becomes low, and the charge of the capacitor C ₄ discharges.

Therefore, the voltages distributed by the supply voltages Vcc ₁ and Vcc ₂ by the retarder R ₂ -R ₇ are greater than the voltage at the connection point E, so that the diodes D ₂ and D ₃ are turned on and as a result the contrast adjusting volume The voltage applied to the variable resistance VR ₁ is lowered so that the current IB is reduced. The voltage drop is also generated at the variable resistor VR ₂ , which is the brightness control adjustment volume, to be applied to the brightness control terminal BC. This is limited.

At the same time, the output signal demodulated by the intermediate frequency amplifier is applied to the video signal terminal (PIF) to make the voltage of the DC voltage by the integrating circuit of the resistor (R ₁₀ ) and the capacitor (C ₃ ) to the base of the transistor (Tr). Will be authorized.

As a result, the transistor Tr is turned on, and the voltage applied to its base increases in proportion to the magnitude of the demodulated output signal.

Here, when the demodulated output signal is large, the voltage applied to the base of the transistor Tr increases and its collector current also increases, so that the voltage at the connection point F falls below the voltage at the connection point G, and the diode D _1. ) Is turned on to further reduce the voltage at the automatic brightness control terminal BC.

Therefore, when the screen is bright, the voltage of the contrast control terminal CC and the brightness control terminal BC is constantly dropped in the conventional automatic luminance limit compensation circuit. However, when the compensation circuit is used, the brightness of the screen depends on the brightness. The voltage of the control terminal BC is further reduced compared to the conventional circuit to obtain an effect of increasing the voltage of contrast relatively.

That is, in the case of a bright screen, the voltage of the brightness control terminal BC may be reduced to a greater extent than the contrast control terminal CC, and an effect of substantially increasing the voltage of the contrast control terminal CC is greater than that of the conventional circuit. The (VIDEO GAIN) becomes larger and the video signal near the black level becomes brighter, so that the contrast of this part can be distinguished, so that the sharpness is improved.

Claims (1)

The variable resistor VR ₁ , the resistors R _1- R ₃ , and the capacitor C ₁ are connected to the contrast control terminal CC, and the variable resistor VR ₂ and the resistor (A) are connected to the conventional image controller A. In the known configuration configured by connecting R ₆ -R ₈ ) and a capacitor (C ₂ ) to the brightness control terminal (BC), a diode (D ₁ ) and a resistor (R ₁₄ ) connected in series with the brightness control terminal (BC). Is connected to the collector of the transistor (Tr) connected to the emitter (R ₁₁ ) to the emitter and a capacitor (C ₃ ) and a resistor (R ₉ , R ₁₀ ) are connected between its base and the video signal amplifying terminal (PIF) and ground. Automatic luminance limit compensation circuit device characterized in that the connection.