KR960004259Y1 - Brightness regulation circuit for monitor - Google Patents

Abstract

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Description

Monitor brightness adjustment circuit

1 is a screen brightness adjustment circuit diagram of a conventional monitor.

2 is a screen brightness adjustment circuit diagram of the present invention monitor.

* Explanation of symbols for main parts of the drawings

1: Integrating Circuit 2: Chroma Unit

3: color signal mixing section 4: switching level output section

5: external color signal input unit 6: beam current adjusting unit

7: Reference level setting part FBT: Flyback transformer

D ₁ to D ₄ : Diodes C ₁ to C ₅ : Condenser

R ₁ to R ₁₇ : resistance

The present invention relates to the brightness of the external color signal of the monitor, and adjusts the brightness, contrast and color level of the screen according to the reference level of the screen contrast set when the color signal is input to the external signal input terminal. The screen brightness adjustment circuit of the monitor to be adjusted.

FIG. 1 is a screen brightness adjustment circuit diagram of a conventional monitor. As shown in FIG. _1, a resistor R ₁ to R ₄ and a condenser to receive a pulse width modulation signal pwm of a microcomputer (not shown) and detect a DC level. Integrating circuit 1 composed of C ₁ ) (C ₂ ) and external color signal input unit 5 for outputting data switching signal D / S as external color signals R _E , G _E , B _E are input. And resistors R ₅ to to combine the subtitle color signals R _O , G _O , B _{O of the} microcomputer (not shown) and the outputs R _E , G _E , B _{E of} the external color signal input unit ₅ . R ₉ ) and a color signal mixing unit 3 composed of a condenser C ₃ to C ₅ , and a diode D ₁ and a resistor R ₁₀ to divide the output D / S of the external color signal input unit 5. The switching level output section 4 composed of (R ₁₁ ) and the level of the luminance signal (Y) are clamped, and then the luminance is adjusted in accordance with the output (V ₁ ) of the integrating circuit (1). Color Signal (RY) (BY), adding the color signal (Ri, Gi, Bi), the reproduction and the color signal (Ri, Gi, Bi) and an output (R _E, G _E, B _E) of the outer color signal input section 5 to To a chroma unit composed of a clamping unit 21, a brightness adjusting unit 22, a matrix unit 23, and switching units 24 to 26 so as to be switched according to the output V ₄ of the switching level output unit 4. 2) and diodes D ₂ (D ₃ ) and resistors R ₁₂ () to control the beam current of the flyback transformer (not shown) in accordance with the output V ₁ of the integrating circuit 1. It is composed of a beam current adjusting unit (6) consisting of R ₁₃ ), as described in the operation of the conventional circuit as follows.

The luminance signal (Y) is input to the chroma unit (2) to clamp the lump level in the clamping unit 21, the contrast and contrast are adjusted through the luminance adjusting unit 22, the color difference signal (RY) in the matrix unit 23 As combined with BY, the color signals Ri, Gi, and Bi are output to the monitor (not shown) through the switching units 24, 25, and 26.

Here, the brightness control unit 22 integrated circuit (1) outputs the output (V ₂₁₎ to adjust the brightness the integrated circuit (1) of the clamping portion 21 in accordance with the (V ₁₎ of the contrast of the TV screen, To suppress the characteristics of contrast, color, and volume, a pulse width modulated signal (PWM) output from a microcomputer (not shown) is input and a resistor and a capacitor (R ₂ , C ₁ ) (R ₄ , C ₂ ) detects the DC level V ₁ and adjusts the variable range of the signal V ₁ by adjusting the value of the resistor R ₁ (R ₃ ).

At this time, the color signal mixing unit 3 adjusts the levels of the on-screen display color signals Ro, Go, and Bo through the resistors R ₅ and R ₆ , respectively, which are output from a microcomputer (not shown). Color signals R _E , G _E , B _E inputted through (5) and condensers C ₃ (C ₄ ) (C ₅ ) are combined to switch portions 24 and 25 of chroma unit 2 ( 26).

Accordingly, as the color signals R _E , G _E , and B _E are input to the external color signal input unit 5, a voltage D / S of a predetermined level (about 1 to 3 V) is generated to the switching level output unit 4. When input, the voltage is divided by the resistor R ₁₀ (R ₁₁ ) through the diode D ₁ and the divided voltage V ₄ is input to the switching units 24, 25, 26 of the chroma unit 2. The color signal synthesized by the input unit 3 is selected and output to the monitor (not shown).

Then, as the integrating circuit 1 receives the output PWM of the microcomputer (not shown) and varies the DC level V ₁ , the beam current adjusting unit 6 includes a diode D ₂ (D ₃ ) and The resistor R ₁₂ (R ₁₃ ) adjusts the current flow of the flyback transformer (not shown) to control the beam current of the monitor (not shown).

However, such a conventional circuit can adjust the beam current of the flyback transformer according to the pulse width modulated signal of the microcomputer, but in the case of the analog monitor, the time constant of the integrating circuit is not appropriate when the external color signal is input. There was an inconvenience that brightness and color did not vary.

In order to solve this problem, the present invention devised a screen brightness adjusting circuit of a monitor that adjusts the brightness and brightness of an external color signal by adjusting the level of the beam current with a switching voltage generated when an external color signal is input. This will be described in detail with reference to the accompanying drawings.

2 is an integrated circuit 1, a chroma unit 2, a color signal mixing unit 3, a switching level output unit 4, and an external color signal input unit 5 as shown in the screen brightness adjustment circuit diagram of the present invention monitor. And the beam current adjusting unit 6 are connected in the same manner as the conventional circuit of FIG. 1, and the diode D ₁ cathode side of the switching level output unit 4 and the integrating circuit 1 and the beam current adjusting unit 6 Resistor (R ₁₆ ) (R ₁₇ ) to be connected between the connection points of the < _{RTI ID} = 0.0 > (R) < / RTI > It comprises a reference level setting unit 7 composed of a diode (D4).

The beam current adjusting unit 6 sequentially outputs the output of the reference level setting unit 7 to the anode of the diode D ₃ having the cathode connected to the voltage 12V through the resistor R ₁₂ and the diode D ₂ . Connect the connection point to the secondary coil of the flyback transformer (FBT) via a resistor (R ₁₃ ) and connect the primary coil of the flyback transformer (FBT) to which the voltage (B ⁺ ) is applied (R ₁₄ ). It is configured to connect to the connection point of the diode (D ₃ ) (D ₂ ) and the resistor (R ₁₃ ) through (R ₁₅ ).

The operation of the screen brightness adjustment circuit of the present invention monitor configured as described above will be described in detail as follows.

The luminance signal Y is input to the chroma unit 2, the black level is clamped by the clamping unit 21, and the contrast and contrast are adjusted by the luminance adjusting unit 22, so that the color difference signal RY is performed by the matrix unit 23. As BY is synthesized, the color signals Ri, Gi, and Bi are output to the monitor (not shown) through the switching units 24, 25, and 26.

Here, the brightness control unit 22 integrated circuit (1) outputs the output (V ₂₁₎ to adjust the brightness the integrated circuit (1) of the clamping portion 21 in accordance with the (V ₁₎ of the contrast of the TV screen, To control the characteristics of contrast, color, and volume, a pulse width modulated signal (PWM) output from a microcomputer (not shown) is input, and a resistor and a capacitor (R ₂ , C ₁ ) (R ₄ , The variable range of the signal V ₁ is adjusted by detecting the DC level V1 through C ₂ ) and adjusting the value of the resistor R ₁ (R ₃ ).

At this time, the color signal mixing unit 3 adjusts the levels of the on-screen display color signals Ro, Go, and Bo through the resistors R ₅ and R ₆ , respectively, which are output from a microcomputer (not shown). The switching unit 24 of the chroma unit 2 (25) by combining the color signals R _E , G _E , B _E inputted through the (5) and the condensers C ₃ , C ₄ , and C ₅ . Will be output to the (26).

Accordingly, as the color signals R _E , G _E , and B _E are input to the external color signal input unit 5, a voltage D / S of a predetermined level (about 1 to 3 V) is generated to the switching level output unit 4. When input, the voltage is divided by the resistor R ₁₀ (R ₁₁ ) through the diode D ₁ and the divided voltage V ₄ is input to the switching units 24, 25, 26 of the chroma unit 2. The color signal synthesized by the input unit 3 is selected and output to the monitor (not shown).

Then, as the integrating circuit 1 receives the output PWM of the microcomputer (not shown) and varies the DC level V ₁ , the beam current adjusting unit 6 includes a diode D ₂ (D ₃ ) and Through the resistors R ₁₂ and R ₁₃ , the current flow of the flyback transformer (not shown) is controlled to control the beam current of the monitor (not shown).

In addition, the output D / S of the external color signal input unit 5 is divided by the resistor R ₁₆ (R ₁₇ ) as it is input to the reference level setting unit 7, and this divided voltage is passed through the diode D ₄ . It is output to the beam current adjustment part 6.

At this time, the beam current adjusting unit 6 receives the output V ₇ of the reference level setting unit 7 through the resistor R ₁₂ and the diode D ₂ and generates the secondary coil of the flyback transformer FBT. The reference level of screen contrast is set by adding the beam current according to the changed high voltage to the anode of the diode D ₃ .

Accordingly, the diode D ₃ is turned on when the voltage on the anode side becomes higher than the voltage on the cathode side 12V to control the beam current generated in the secondary coil of the flyback transformer FBT.

On the other hand, the beam current composition part 6 basically applies the voltage B ⁺ connected to the primary coil of the flyback transformer FBT to the anode of the diode D ₃ through the resistor R ₁₄ (R ₁₅ ). It is to control the level of the generated beam current.

As described in detail above, the screen brightness adjusting circuit of the present invention monitors the screen brightness by inputting a voltage generated when a color signal is input from the outside to a flyback transformer generating a beam current.

Claims (2)

Integrating circuit 1 for detecting the DC level by integrating the pulse width modulation signal PWM of the microcomputer and external color signals R _E , G _E , B _E , and data switching signals D / S. An external signal input unit 5 for outputting the signal, a switching level output unit 4 for dividing the output D / S of the external signal input unit 5, color signals Ro, Go, Bo of the microcomputer and the By adjusting the level of the luminance signal (Y) in accordance with the color signal mixing section (3) for combining the color signals (R _E , G _E , B _E ) of the external signal input section (5) and the output (V ₁ ) of the integrating circuit The color signals Ri, Gi, and Bi are reproduced by summing with the color difference signals RY and BY, and the color signals Ri, Gi and Bi or the color signals Ri are in accordance with the signal V ₄ of the switching level output unit 4. A beam current is generated in the monitor according to the output V ₁ of the integrating circuit 1 by applying the voltage B ⁺ and the chroma unit 2 for selecting and outputting the output of the color signal mixing unit 3 to the monitor. Beam current The brightness of the screen is adjusted by receiving and dividing the output D / S of the external signal input unit 5 through the adjusting unit 6 and the sound switching level output unit 4 and outputting the divided voltage to the beam current adjusting unit 6. And a reference level setting unit (7). 2. The beam current adjusting unit (6) according to claim 1, wherein a voltage (12V) is connected to the cathode through a resistor (R ₁₂ ) and a diode (D ₂ ) in sequence with the output (V ₇ ) of the reference level setting unit (7). The primary side of the flyback transformer EBT to which the anode of the diode D ₃ is applied and the voltage B ⁻ is applied to the anode of the diode D ₃ through a resistor R ₁₄ (R ₁₅ ). And the connection point is connected to the other end of the secondary side of the flyback transformer (F, B, T) where high pressure (H, V) is generated at the second end through a resistor (R ₁₃ ). Screen brightness adjustment circuit.