KR890004423Y1 - Brightness control circuit - Google Patents

Abstract

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Description

Screen brightness adjustment circuit

1 is a conventional screen brightness adjustment circuit diagram.

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

* Explanation of symbols for main parts of the drawings

1: cascade amplifier 2: CRT

3: static current circuit 4: non-current circuit

TR ₁ -TR ₄ : Transistor R ₁ -R ₁₉ : Resistor

C ₁ -C ₅ : Condenser VR _1- VR ₄ : Variable resistor

YS: Video signal input terminal HS: Horizontal pulse signal input terminal

The present invention relates to a screen brightness adjustment circuit that adjusts the brightness of a screen appearing in a CRT, that is, a contrast representing dark and bright portions of a screen and a brightness representing a brightness of a screen in a television receiver and a monitor.

The conventional screen adjustment circuit has a resistor R which is an input side of the cascade amplifier 1 composed of transistors TR ₁ , TR ₂ , resistors R _1- R ₄ , and capacitor C ₁ , as shown in FIG. 1. ₁ ) is connected to the video signal input terminal YS through the variable resistor VR ₁ , and the collector of the transistor TR ₁ , which is its output side, is connected to the cathode of the CRT 2 through the resistor R ₅ , A variable R ₆ , a variable resistor VR ₂ , and a resistor R ₇ are connected between the output side of the rectifying circuit 3 and the non-circulating circuit 4 having the horizontal pulse signal input terminal HS connected thereto. The variable terminal of the resistor VR ₂ is connected to the grid of the CRT 2, and the output side of the rectifying circuit 3 is passed through the resistor R ₈ and the coil L ₁ , and then the transistor TR ₁ It was configured by connecting to the connection point of the collector and the resistor (R ₅ ).

The conventional screen brightness adjusting circuit configured as described above adjusts the contrast of the screen by applying the magnitude of the image signal input to the image signal input terminal YS with the variable resistor VR ₁ and applying it to the base of the transistor TR ₁ . That is, the output voltage of the rectifying circuit 3 which has rectified the horizontal pulse signal inputted to the horizontal pulse signal input terminal HS according to the magnitude of the image signal applied to the base of the transistor TR ₁ is a resistor R _8. ) And through the coil (L ₁ ), transistor (TR ₁ ), (TR ₂ ), resistor (R ₄ ) to the ground to a constant voltage drop by the resistor (R ₈ ), according to the voltage drop The contrast of the screen was adjusted by applying a constant voltage to the cathode of 2).

Then, by adjusting the voltage applied to the grid of the CRT _{2 with the} variable resistor VR ₂ , the luminance of the screen is adjusted, that is, the horizontal pulse signal inputted to the horizontal pulse signal input terminal HS is fixed and unregulated. The output voltages of the rectifying circuit 3 and the non-circulating circuit 4 are applied to a grid of the cathode tube 2 according to the variable resistance VR ₂ so that a constant voltage is applied to the grid and the cathode of the cathode tube 2. The brightness of the screen is adjusted by the difference of applied voltage.

However, such a conventional screen brightness control, such circuits are not applied to the video signal directly to exposed to the outside is installed a variable resistor (VR ₁₎ so as to be external noise signal easily induced by the lead line of the variable resistor (VR ₁₎ that When the disturbance radio wave is generated by the video signal flowing through the leader line, and the voltage applied to the grid is low due to the deviation of the CRT 2 also in adjusting the luminance, the video signal is large and the voltage applied to the cathode is increased. When it is lowered, the voltage difference between the cathode and the grid becomes small, so that the screen appears when the luminance is minimized.

In view of such a conventional defect, the present invention changes the contrast of the screen to a DC voltage so that external noise is not applied, as well as a disturbance wave, and the luminance is changed to a DC bias voltage to minimize the brightness. When the screen of the CRT was not made to appear, it will be described in detail by the accompanying Figure 2 as follows.

2 is a screen brightness adjustment circuit diagram of the present invention, and as shown therein, the output side of the rectifier circuit 3 including the diode D ₁ and the capacitor C ₂ is connected to the resistor R ₈ and the coil L ₁ . In the screen brightness adjusting circuit connected to the cathode of the cathode ray tube (2) together with the output side of the cascade amplifier (1), the resistor (R ₉ ), the variable resistor (VR ₃ ), and the resistor (R ₁₀ ) are connected to the power supply terminal (Vcc). ), the series-connected to the capacitor a variable terminal of the variable resistor (VR ₁₎ (C ₄₎ and a transistor (the emitter grounding capacitor (C ₅₎ and the resistance of the connection to the base of TR ₃₎ and the transistor (TR ₃₎ (R ₁₁ ) is connected to the video signal input terminal YS and the connection point thereof is connected to the base of the resistor R ₁₃ and the transistor TR ₄ through the resistor R ₁₂ to emitter of the transistor TR ₄ . the emitter and that of the resistor (R ₁₅₎ and the other hand, the transistor (TR ₃₎ connected to the resistance (R ₁₎ of said cascaded amplifiers (1) (R _11), a capacitor (C ₅₎ to a resistance (R ₁₆₎ and a variable resistor connection point of the (VR _4), a resistance (R ₁₇₎ a series-connected to the transistor a variable terminal of the variable resistor (VR ₁₎ (TR ₅ ) base, and a capacitor (C connected to _6), and the transistor (TR ₅₎ emitter resistance (R ₁₈₎ connected, and at the same time base and a resistor (R in the connection point thereof the transistor (TR ₄₎ to _12), ( It is configured by connecting to a connection point of R ₁₃ ) through a resistor R ₁₉ .

Referring to the effect of the screen brightness adjustment circuit of the present invention configured as described above in detail as follows.

When power is applied to the power supply terminal Vcc, the power is divided into a resistor R ₉ , a variable resistor VR ₃ , and a resistor R ₁₀ and applied to the base of the transistor TR ₃ , so that the transistor TR ₁ . The emitter of the variable resistor (VR ₃ ) is a variable voltage according to the voltage applied to its base is output, the output voltage is input through the resistor (R ₁₁ ) and then input to the image signal input terminal (YS) Since the image signal is combined with the image signal and applied to the base of the transistor TR ₄ through the resistor R ₁₂ , a constant voltage is output to the emitter of the transistor TR ₄ and applied to the base of the transistor TR ₂ .

Accordingly, the voltage drop in the resistor R ₈ is varied as a current flows in the collector of the transistor TR ₂ according to the constant DC voltage according to the variable resistance VR ₃ and the voltage of the image signal. The voltage applied to the cathode of the () is variable so that the brightness of the screen is variable.

That is, as the voltage applied to the base of the transistor TR ₃ is increased by varying the variable resistor VR ₃ , the voltage applied to the base of the transistor TR ₂ increases, so that a large amount of collector current flows. ₈ , the voltage drop increases and a low voltage is applied to the cathode of the CRT 2, and the brightness of the screen is increased. As the voltage applied to the base of the transistor TR ₃ decreases, the transistor TR ₂ decreases. ), The collector current decreases, so that the voltage drop in the resistor R ₈ decreases, and a high voltage is applied to the cathode of the CRT 2 to reduce the brightness of the screen.

In addition, if the values of the resistors R ₉ and R ₁₀ are adjusted in the above, the brightness of the screen is very low according to the variable resistance VR ₃ . have.

On the other hand, in the state in which the brightness is adjusted in this way, the voltage output to the emitter of the transistor TR ₃ is divided by the resistor R ₁₆ , the variable resistor VR ₄ , and the resistor R ₁₇ , and thus the transistor TR _5. Is applied to the base of the transistor TR ₅ , and a constant voltage is output to the emitter of the transistor TR ₅ according to the voltage applied to the base of the variable resistor VR ₄ , and the output voltage is transmitted through the resistor R ₁₉ . It applied to the base of the transistor (TR _4), so that the voltage output to the emitter of the transistor (TR ₄₎ is variable is applied to the base of the transistor (TR _2).

Accordingly, since the collector current of the transistor TR ₂ is varied according to the variable resistor VR ₄ , and the voltage drop at the resistor R ₈ is variable, the voltage applied to the cathode of the CRT 2 is varied to display the screen. The contrast can be varied.

That is, if the variable resistor VR ₄ is increased while the brightness of the screen is adjusted to increase the voltage applied to the base of the transistor TR ₅ , the voltage applied to the base of the transistor TR ₂ increases to increase the collector current. Since the voltage drops across the resistor R ₈ increases, the voltage applied to the cathode of the CRT 2 becomes low, the contrast of the screen becomes strong, and when the voltage applied to the base of the transistor TR ₂ decreases, The collector current of the transistor TR ₂ flows small, so that the voltage drop in the resistor R ₈ decreases, and the voltage applied to the cathode of the CRT 2 increases to weaken the contrast of the screen.

Then, when the above varying the variable resistor (VR ₃₎ a voltage applied to the base of the transistor (TR ₃₎ the lowest and the voltage output to the emitter of the transistor (TR ₃₎ so becomes the lowest variable resistor (VR ₄ ) The brightness is the lowest, irrespective of the change of ₄ ), and the screen is not visible. The variable resistor VR ₄ is applied to the base of the transistor TR ₅ with the voltage applied to the base of the transistor TR ₃ adjusted to the highest level. When the adjusted voltage is adjusted to the lowest, the voltage output to the emitter of the transistor TR ₅ becomes the lowest, and the voltage output to the emitter of the transistor TR ₅ becomes the resistor R ₁₁ (R ₁₂ ) (R ₁₉ ) divided by (R ₁₈ ) and applied to the base of the transistor (TR ₄ ), whereby the values of the resistors (R ₁₁ ) (R ₁₂ ) (R ₁₉ ) (R ₁₈ ) are adjusted to the CRT (2). You can prevent the screen from appearing at all.

As described above, according to the present invention, when the voltage applied to the base of the transistors TR ₃ and TR ₅ is minimized by varying the variable resistors VR ₃ and VR ₄ , the screen is displayed on the CRT 2. so can be adjusted, and the variable resistor (VR ₃₎ (VR ₄₎ a direct current voltage only to flow, so the variable resistor (VR ₃₎ (VR ₄₎ to does not also the incoming external noise by varying, while it is exposed to the outside is the Of course, the interference is prevented from occurring by the video signal.

Claims (1)

Screen brightness adjustment circuit connecting the output side of the constant current circuit 3 through the resistor R ₈ and the coil L ₁ together with the output side of the cascade amplifier 1 to the cathode of the cathode ray tube 2 via the resistor R ₅ . In this case, the resistor R ₉ , the variable resistor VR ₃ , and the resistor R ₁₀ are connected in series to the power supply terminal Vcc, so that the variable terminal of the variable resistor VR ₃ is connected to the base of the transistor TR ₃ . Its collector is connected via a resistor R ₁₁ , and then the emitter is connected with the video signal input terminal YS to the base side of the transistor TR ₄ connected to the input side of the cascade amplifier 1, A resistor R ₁₆ , a variable resistor VR ₄ , and a resistor R ₁₇ are connected in series to an emitter of the transistor TR ₃ to connect the variable terminal of the variable resistor VR ₄ to the base of the transistor TR ₅ . And an emitter of which is connected to the base side of the transistor (TR ₄ ).