KR0127755Y1 - Transistor-operating power varifying circuit for horizontal driving - Google Patents

Abstract

The present invention relates to a horizontal driving transistor driving power supply variable circuit, and in the related art, even when the horizontal width of the screen is adjusted, the driving power of the horizontal driving transistor is fixed at a constant level, and only the driving power of the horizontal driving transistor is set at a frequency. Only variable. When the horizontal width of the screen is adjusted while maintaining the normal screen, the present invention corrects the driving power supplied to the horizontal driving transistor as much as the horizontal width of the screen is adjusted, thereby outputting the horizontal driving transistor when the horizontal width of the screen is converted. The effect is that the level can be adjusted to the same condition as the horizontal width of the changing screen.

Description

Horizontal driving transistor driving power supply variable circuit

1 is a circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

12: microprocessor 14: digital / analog converter

18: first amplifier 20: second amplifier

22: drive power control unit 24: digital / analog converter

TR: Transistor Driving Transistor TR ₁ : Transistor

R ₁ to R ₈ : Resistor OP ₁ , OP ₂ : OP amplifier

The present invention relates to a horizontal driving transistor drive power supply variable circuit according to the horizontal screen width adjustment of the monitor, in detail, the operating conditions of the horizontal driving transistor by varying the operating power of the horizontal driving transistor when the horizontal width adjustment of the screen is variable. It relates to a horizontal drive transistor drive power supply variable circuit to form a.

Conventionally, even when the horizontal width of the screen is adjusted, the driving power of the horizontal driving transistor is fixed at a constant level, and only the driving power of the horizontal driving transistor is changed by frequency.

The present invention has been devised in view of the above-mentioned point, and when the horizontal width of the screen is changed, the horizontal power of the screen for inputting the driving conditions of the horizontal driving transistor is varied by varying the driving power of the horizontal driving transistor. It is an object of the present invention to provide a horizontal drive transistor driving power supply variable circuit capable of forming the same conditions as the adjustment.

The present invention for realizing the object as described above includes a microprocessor for controlling the overall operation of the monitor to display the video signal on the CRT by the vertical and horizontal synchronization signal applied from the personal computer not shown And a first amplifying means for amplifying an arbitrary reference voltage and a screen horizontal width adjusting voltage of the microprocessor digitally converted by the digital / analog converting section, the first amplifying means for amplifying the display voltage and the output voltage of the first amplifying means. Comprising a second amplification means for synthesizing and amplifying the horizontal frequency voltage, it is composed of a drive power control unit for controlling the driving power supplied to the horizontal driving transistor by switching according to the voltage level of the second amplifying means It is characterized by.

Hereinafter, the configuration according to an embodiment of the present invention will be described in detail with the accompanying drawings.

The present invention, as shown in Figure 1, a microprocessor that controls the overall operation of the monitor to display the video signal on the CTR by the vertical synchronization signal (Vsync) and horizontal synchronization signal (Hsync) applied from the personal computer (12), a first amplifier (18) for amplifying the reference voltage and the screen horizontal width adjustment voltage digitally converted by the digital / analog converter (14), and the first amplifier (18). A second amplifier 20 for synthesizing and amplifying an output voltage and a horizontal frequency voltage of the power amplifier; and a driving power supplied to the horizontal driving transistor TR by switching the second amplifier 20 according to a voltage level. It consists of a driving power control unit 22 to adjust the.

Here, the first amplifier 18 is that the reference voltage divided is applied to one terminal (+) of the OP amplifier (OP _1), the resistance (R ₁₎ (R _2), and one side of the OP amplifier (OP ₁₎ It consists of a terminal (+) for applying a voltage adjustment width of the screen horizontal resistance (R ₃₎ and, OP amplifier (OP _1), for amplifying the reference voltage and the horizontal screen width adjusting voltage.

In addition, the second amplifier 20 combines the output of the OP amplifier OP ₁ and the horizontal frequency voltage and applies the resistance R ₃ (R ₅ ) to one terminal (+) of the OP amplifier OP ₂ . And an OP amplifier OP ₁ for amplifying and outputting the synthesized voltage, and the driving voltage adjusting unit 22 switches according to the output level of the OP amplifier OP _{2 to} perform horizontal driving transistor TR. And a transistor TR ₁ for adjusting the driving power supply.

In the figure, reference numeral 24 is a digital / analog converter for converting a PWM pulse output from the microprocessor 12 into an analog signal in order to adjust the frequency level of the horizontal sync signal Hsync.

The effect of the present invention configured as described above will be described.

According to the present invention, when the vertical synchronizing signal Vsync, the horizontal synchronizing signal Hsync, and a video signal are output from the personal computer and applied to the microprocessor 12, the microprocessor 12 receives the vertical synchronizing signal Vsync and the horizontal synchronizing signal. (Hsync) controls the output operation of the video signal displayed on the CTR.

The screen horizontal width adjustment voltage output from the microprocessor 12 that controls the overall operation of the monitor is combined with the reference voltage divided by the resistors R ₁ and R ₂ so that one terminal of the OP amplifier OP ₁ is positive. When applied to, the OP amplifier OP ₁ buffers (buffers) the applied synthesized voltage and applies it to one terminal (+) of the OP amplifier OP ₂ through the resistor R ₄ .

That is, at one terminal (+) of the OP amplifier OP ₂ , the horizontal frequency voltage of the microprocessor 12 is converted into an analog voltage by the digital / analog converter 24, and then the OP amplifier is connected through the resistor R ₅ . It is applied by combining with the screen horizontal adjustment width adjustment voltage output from the output terminal of (OP ₁ ).

Therefore, applied to the OP amplifier (OP ₂₎ is the horizontal frequency voltage applied to the base side of the screen, the horizontal adjustment voltage buffer amplifier (buffering) the synthesized composite voltage to the transistor (TR _1), so the transistor (TR _1), the base-side The driving voltage applied to the horizontal driving transistor TR is controlled by driving according to the synthesized voltage level.

That is, when the screen horizontal width adjustment voltage output from the microprocessor 12 is output by operating a key for adjusting the screen horizontal width, it is synthesized together with the reference voltage as described above through the digital / analog converter 14. after the buffered by the OP amplifier (OP ₁₎ is applied to one terminal (+) of the OP amplifier (OP _2).

Accordingly, the OP amplifier OP ₂ has the above-described screen horizontal width adjustment voltage and the horizontal frequency voltage output from the microprocessor 12 on the base side of the transistor TR ₁ that controls the operation power supply of the horizontal driving transistor TR. In this case, the operating power of the horizontal driving transistor TR can be corrected in consideration of the scanning amount of the electron beam according to the horizontal width adjustment of the screen.

On the other hand, when the horizontal width of the screen is not adjusted (refers to a case in which the screen maintains a normal shape, in this case, the driving power of the horizontal synchronization signal output transistor TR is not converted by the screen horizontal width adjustment voltage). The drive voltage of the horizontal driving transistor TR is normally adjusted only by the horizontal frequency voltage output from the microprocessor 12.

The present invention as described above corrects the driving power supplied to the horizontal driving transistor as much as the horizontal width of the screen is adjusted when the horizontal width of the screen is maintained while maintaining the normal screen, so that the horizontal driving when the horizontal width of the screen is converted. There is an effect that can be adjusted to the same condition as the horizontal width of the screen for converting the output level of the transistor.

Claims (4)

A monitor comprising a microprocessor that controls the overall operation of a monitor to display a video signal on a CRT by a vertical sync signal and a horizontal sync signal applied from a personal computer, comprising: a reference voltage and a digital / analog converter; A first amplifier for amplifying the digitally converted screen horizontal adjustment voltage, a second amplifier for amplifying the output voltage and the horizontal frequency voltage of the first amplifier, and a horizontal switching operation according to the voltage level of the second amplifier. And a driving power adjusting unit for adjusting driving power supplied to the driving transistor. 2. The display device of claim 1, wherein the first amplifier divides a reference voltage into two resistors applied to one terminal of the OP amplifier, a resistor for applying a screen horizontal width adjustment voltage to one terminal of the OP amplifier, and the reference voltage. And an op amp which amplifies the voltage for adjusting the horizontal width of the screen. The method of claim 1, wherein the second amplifier is composed of two resistors for combining the output of the OP amplifier and the horizontal frequency voltage applied to the output of the OP amplifier, and the OP amplifier for amplifying and outputting the synthesized voltage A horizontal drive transistor drive power supply variable circuit, characterized in that. The horizontal driving transistor driving power variable circuit of claim 1, wherein the driving voltage adjusting unit comprises a transistor configured to control driving power of the horizontal driving transistor by switching according to an output level of the OP amplifier.