KR910007198Y1 - Brightness control circuit - Google Patents

Abstract

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Description

Brightness Control Circuit of CRT

1 is a conventional circuit diagram.

2 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

2: CRT drive stage 4: Control signal control unit

5: luminance signal controller IC: micom

Q _{1 to} Q ₆ : transistors

The present invention relates to a brightness control circuit of the cathode ray tube to control the brightness signal to adjust the brightness of the cathode ray tube.

Conventional brightness control of the picture tube is a CRT given by varying a luminance signal (Y) which is applied to the CRT drive stage standing luminance processor (1) to which the video signal as shown in Fig. 1 (2) a variable resistor (VR ₁₎ ( 3) Brightness was adjusted.

That is, in the related art, the brightness signal of the luminance processor 1 is controlled by adjusting the volume of the variable resistor VR ₁ installed outside the set to adjust the brightness of the CRT, so that the brightness of the CRT is adjusted to the video signal level. .

Therefore, in order to adjust the brightness of the CRT according to the video signal level, the variable resistor (VR ₁ ) must be manually changed so that the brightness of the screen cannot be adjusted by using a remote controller.

The present invention allows the brightness of the CRT to be controlled by a brightness control signal remotely controlled in view of the above, and the CRT drive is controlled by controlling the driving of the transistor of the brightness signal controller through the control signal controller using the screen brightness adjustment key of the remote controller. The brightness of the screen is adjusted by varying the luminance signal level applied to the stage.

This will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of the present invention, and the screen brightness adjustment signal remotely controlled by the remote controller is applied to the microcomputer IC ₁ to convert the control signal output of the output terminals A and B and to control the microcomputer IC1. The signal output controls the driving of the transistors Q ₄ and Q ₅ of the luminance signal controller 5 through the control signal controller 4 so that the luminance signal Y is applied to the resistors R ₁ and R ₂ . Is converted so that it is applied to the CRT drive stage 2.

That is, the luminance signal controller 5 selectively passes through the transistors Q ₄ and Q ₅ and the resistors R ₁ and R ₂ in which the luminance signal Y is controlled to be driven by the control signal controller 4. The brightness of the CRT is adjusted by varying the luminance signal level applied to the CRT drive stage 2.

At this time, the driving of the transistors Q ₄ and Q ₅ of the luminance signal controller 5 is controlled by the transistors Q _1- Q ₃ and Q ₆ driven by the control signal of the microcomputer IC ₁ . The control signal controller 4 is configured.

That is, the output of the output terminal A of the microcomputer IC ₁ controls the driving of the transistors Q ₁ and Q ₂ to control the driving of the transistors Q ₃ -Q ₅ , and the output of the output terminal B. Is configured to control the driving of transistor Q ₆ so as to drive backward with transistor Q ₅ .

At this time, the output terminal (A) (B) output level of the microcomputer (IC1) is sequentially ternary counted by pressing the screen brightness adjustment key of the remote control.

As such, the present invention controls the output of the output terminals A and B in the microcomputer IC ₁ by pressing the screen brightness adjustment key of the remote controller, and the output terminals A and B in the control signal controller 4. By controlling the driving of the transistors Q ₁ -Q ₃ and Q ₆ by the output of the same, the luminance signal Y is controlled by controlling the driving of the transistors Q ₄ and Q ₅ of the luminance signal control unit 5. Is selectively applied to the CRT drive stage 2 through the transistors Q ₄ and Q ₅ whose driving is controlled according to the output levels of the resistors R ₁ (R ₂ ) and the output terminals A and B. Therefore, the picture brightness of the CRT is adjusted.

That is, the screen brightness of the CRT can be adjusted by the set steps of the luminance signal control unit 5 by the screen brightness adjusting keys of the remote controller. In the present invention, the brightness of the CRT is adjusted to three steps of dark brightness, medium brightness and bright brightness. .

Looking at the effect of the present invention configured as described above are as follows.

First, the microcomputer (IC1) of the present invention is output at the low level to the output terminal (A) (B) by pressing the screen brightness adjustment key on the remote control, or the output terminal (A) is a low level output terminal (B) The output terminal A is output at the level or the low level output terminal B is output in three steps of the high level.

In other words, by pressing the screen brightness adjustment key of the remote control, the output of the output terminal (A) (B) is converted into three steps as described above.

The CRT driving stage 2 adjusts the brightness of the CRT according to the voltage level of the luminance signal Y being applied.

That is, when the luminance signal Y applied to the CRT drive stage 2 is applied through the transistor Q ₄ , the screen becomes the brightest and the luminance signal Y is the transistor Q ₅ and the resistor R ₁ . When applied through, the screen becomes medium brightness, and when the luminance signal Y is applied through the resistors R ₁ and R ₂ , the screen is adjusted to the darkest brightness.

First, the screen brightness when the control signals output to the output terminals A and B of the microcomputer IC ₁ are output at the low level will be described.

When the control signal of the output terminal A is at the low level, the transistor Q ₁ is 'turned on' and the transistor Q ₃ is 'turned off' so that the transistor Q ₄ is 'turned off' and at the same time the transistor is turned on. The transistor Q ₅ is turned on by 'turning on' Q ₂ , and the control signal of the output terminal B is at a low level, and the transistor Q ₆ is 'turned off' so that the transistor Q ₆ is turned on. Q ₅ ) will not affect the driving.

That is, when all low level control signals are output to the output terminals A and B, the transistor Q ₅ of the luminance signal controller ₅ is 'turned on' through the control signal controller 4 and the transistor Q ₄ . Since the luminance signal Y applied by 'turning off' is applied to the CRT drive stage 2 through the transistor Q ₅ and the resistor R ₁ , the brightness of the CRT is adjusted to a medium brightness.

However, the screen brightness when the low level control signal is output to the high level output terminal B to the output terminal A of the microcomputer IC ₁ is as follows.

When the control signal of the output terminal B is at the low level, the transistor Q ₆ is 'turned off' so that the transistor Q ₆ does not affect the driving of the transistor Q ₅ , and the output terminal A is the control signal. Is high level, transistor Q ₁ (Q ₀ ) is 'turned off' so that transistor Q ₃ is 'turned on' and transistor Q ₅ is 'turned off' to turn transistor Q ₄ 'turned on'. do.

That is, when a high level control signal is output to the output terminal A and a low level to the output terminal B, the transistor Q ₄ of the luminance signal controller 5 is turned on through the control signal controller 4 and the transistor is turned on. Q ₅ will be 'turned off'.

Therefore, the luminance signal Y is applied to the CRT drive stage 2 directly through the transistor Q ₄ , so that the brightness of the CRT is adjusted to the brightest brightness.

Meanwhile, the screen brightness when outputting a low level control signal to the output terminal A of the microcomputer IC ₁ and a high level to the output terminal B is as follows.

When the control signal of the output terminal A is at the low level, the transistors Q ₁ and Q ₂ are turned on to turn on the transistor Q ₅ and the transistor Q ₃ is turned off. (Q ₄ ) is also 'turned off'.

However, since the control signal of the output terminal B is at a high level, the transistor Q ₆ is 'turned on' through the resistors R ₃ and R ₄ to lower the base potential of the transistor Q ₅ to the ground potential, thereby reducing the transistor ( Q ₅ ) is 'turned off'.

That is, when the low level control signal is output to the output terminal A of the microcomputer IC ₁ and the high level control signal is output to the output terminal B, the transistor Q ₄ of the luminance signal controller 5 is controlled through the control signal controller ₄ . The luminance signal Y applied by 'turning off' all of Q ₅ is applied to the CRT drive stage 2 through the resistors R ₁ and R ₂ to adjust the brightness of the screen to the lowest brightness. will be.

On the other hand, if the luminance signal (Y) conversion level of the luminance signal control unit 5 of the present invention is installed in multiple stages, it is possible to adjust the brightness of the finer screen.

As described above, the present invention changes the output control signal level of the microcomputer with the screen brightness adjusting key of the remote controller, thereby controlling the driving of the transistor of the control signal controller, thereby controlling the driving of the transistor of the luminance signal controller so that the brightness signal level is the screen brightness key. Each press is different and changes the screen brightness.

That is, the screen brightness is adjusted based on the selected step by pressing a key of the screen brightness control key remotely controlled without adjusting the screen brightness with a variable volume for screen brightness adjustment as in the related art.

Therefore, the screen brightness can be automatically changed by the remote control signal, which is convenient for use.

Claims (2)

A microcomputer IC ₁ for outputting a screen brightness control signal, a control signal controller 4 for controlling driving of the switching transistors Q ₁ -Q ₃ and Q _{6 with} an output of the microcomputer IC ₁ , The brightness control circuit of the CRT composed of a luminance signal controller (5) for controlling the luminance signal (Y) by the control signal of the control signal controller (4). The method of claim 1, wherein the control signal of the luminance signal control section 5 each resistor connected in series (R ₁₎ (R ₂₎ to the transistor (Q _4), the control signal control section 4 after the parallel connection of (Q ₅₎ The brightness control circuit of the CRT configured to control the luminance signal (Y) by controlling the furnace driving.