KR910005360Y1 - Input level and green signal changing circuit of color monitor - Google Patents

Abstract

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Description

Input Level and Green Signal Switching Circuit of Color Monitor

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: Video input unit 2: Registered signal input unit

5: video signal amplifying unit 10: green signal switching unit

15: drive unit 20: output unit

25: registration and amplification unit VR1-VR9: variable resistor

C1-C30: Capacitor Q1-Q17: Transistor

SW1-SW2: Selector switch L1: Inductance coil

The present invention is a color monitor that displays the video output of a microcomputer, and it is possible to obtain a high gain video output regardless of the video output difference according to the computer model, and to display the text in green to reduce eye strain. It relates to the input level and green signal switching circuit of a color monitor.

Conventional color monitors have a fixed output even when the video signal output varies depending on the type of microcomputer, making it difficult to obtain a video signal of the desired size. There was a problem that became difficult.

In view of the above, the present invention can obtain high-gain video by controlling input video signals of different types of microcomputers with variable resistors, and switch to green signal mode to prevent eye fatigue during character display. When the output of the video input unit is applied to the video signal amplification unit, the variable resistor is used to adjust the gain of the desired video signal, and the green signal switching unit can be configured to select the color and green signals.

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

The present invention includes a variable resistor (VR1-VR3) having a video input unit (1) receiving an RG B signal input from a computer and adjusting the RG B input level of the video input unit (1), and the variable resistor (VR1-VR3). The transistors Q1-Q6 which amplify the level-adjusted RG B signals in two stages so that the input impedance is medium, the output impedance is large, and the current gain is large, and the RG B signals amplified in the transistors Q1-Q6 are Switch switch SW1 having a video signal amplifier 5 composed of transistors Q7-Q9 for improving distortion and obtaining stable characteristics, and selecting only the RG B signal output from the transistors Q7-Q9 as a green signal. And a green signal switching section 10 composed of SW2 and a variable resistor VR4-VR6 for adjusting the contrast of the RG B signal selected by the switching switches SW1 and SW2. Synchronization signal from transistor Q16 And a transistor 25 for synchronizing and outputting the amplified signal from the transistor Q17, and switching the transistors Q10 to Q12 with the separated synchronous signals of the synchronous separation and amplifying unit 25. And a drive unit 15 for performing subcontrast adjustment by the VR7-VR9. The video output of the green signal switching unit 10 is driven by the drive unit 15 to be amplified by the transistors Q13-Q15 for output. It has been provided with an output unit 20 to.

In the figure, reference numeral C1-C20 is a coupling capacitor, L1 is an inductance coil for the filter, and each resistor is for supplying a bias voltage.

If described in detail the effect of the present invention configured as described above.

First, the RG B signal applied from the microcomputer to the video input unit 1 is applied to the variable resistors VR1-VR3 of the video signal amplifying unit 5, respectively, using the variable resistors VR1-VR3. Adjust the RG B input level, which varies slightly depending on the model.

That is, the resistance value of the variable resistors VR1-VR3 is changed to adjust the different R. G. B input levels according to the computer model.

The R, G, and B signals adjusted by the variable resistors VR1-VR3 are amplified by one stage in the transistors Q1, Q2, and Q3 through the coupling capacitors C1-C3, and then again coupled to the coupling capacitor C4-. C6) is a two-stage amplification in the transistor (Q4-Q6) at this time, the input impedance is medium and the output impedance by using a bias resistor connected to the transistors (Q1-Q6) to amplify each of the two R, G, B signals Is relatively large and allows a large current gain.

That is, the transistors Q1-Q6 of the video signal amplifying unit 5 are adopted as an emitter grounding method, thereby amplifying the RG B signal level adjusted by the variable resistors VR1-VR3 in two stages, but adjusting the bias resistance to increase the input impedance. It is medium in size and its output impedance is relatively large, making it possible to obtain high current gains.

The RG B signal amplified in two stages of the transistors Q1-Q6 is applied to the transistors Q7-Q9 again through the coupling capacitor C32-C34, and in this case, the transistors Q7-Q9 amplify the two stages in the previous stage. In order to improve the distortion of the RG B signal generated at the same time, and to obtain stable characteristics, each RG B signal is extracted from the emitter side.

In this way, the RG B signal output from the video signal amplifier 5 is applied to the variable resistor VR4-VR5 for contrast adjustment according to the connection state of the switching switch SW1 and SW2 through the coupling capacitor C13-C15. Or only the G signal is applied.

That is, when the switching switch SW1 (SW2) is connected to the contact point A, the R signal is applied to the variable resistor VR4, the B signal is applied to the variable resistor VR5, and the G signal is applied to the variable resistor VR6. When (SW1) (SW2) is connected to the contact point B, the G signals are applied to each of the variable resistors VR4-VR6.

Therefore, in order to display the color video signal, connect the selector switch (SW1) (SW2) to the terminal (A). When displaying the computer character, connect the selector switch (SW1) (SW2) to the terminal (B). By only displaying it, you can prevent eye fatigue and decreased vision.

On the other hand, the variable resistor (VR4-VR6) to which the G or RG B signal is applied according to the connection of the switching switch (SW1) (SW2) controls the contrast to adjust the contrast, and the resistance of the variable resistor (VR4-VR6) The larger the voltage applied to the base side of the transistors Q13-Q15, the higher the video gain. The lower the resistance value, the lower the voltage applied to the base side of the transistors Q13-Q15.

The video signal whose contrast is adjusted in the variable resistors VR4-VR6 is applied to the bases of the transistors Q13-Q15 through the coupling capacitors C16-C18.

On the other hand, the synchronization signal of the microcomputer applied to the synchronization signal input unit 2 is applied to the synchronization separation and amplification unit 25 to be synchronously separated from the transistor Q16 and amplified by the transistor Q17.

The synchronous signal separated through the transistor Q16 is applied to the bases of the transistors Q10-Q12 of the drive unit 15 to switch the transistor Q10. At this time, the power supply VCC line and the transistors Q10-Q12 The sub bright is controlled by using the resistance value of the variable resistors VR7 to VR9 connected to the emitters.

Accordingly, the RG B signal with contrast controlled in the variable resistors VR4-VR6 is inserted with the synchronization signal by the transistors Q10-Q12 and the variable resistors VR7-VR9 of the drive unit 15, while the subbright is controlled. After that, it is output through the transistors Q13-Q15 of the output unit 20.

As described above, the present invention can obtain the desired high-gain video signal output by adjusting the RG B signal level in the video input circuit of the monitor even if there is a level difference in the video output for each model of the microcomputer. The video output comes out during input, and only the green signal is output during text display, which can prevent eye fatigue and reduced vision when used for a long time.

Claims (1)

In the color monitor having a synchronous separation and amplifying section (25) for receiving the RG B signal of the computer to the video input section (1), receiving a synchronous signal from the synchronous signal input section (2), and separating and amplifying the simultaneous signal. A variable resistor (VR1-VR3) for adjusting the RG B signal input level of (1), a transistor (Q1-Q6) for amplifying the RG B signal adjusted by the variable resistor (VR1-VR3) in two stages, and the transistor A video signal amplifying section 5 composed of transistors Q7-Q9 for amplifying the RG B signal amplified at Q1-Q6 to improve characteristics, and outputs the RG B signal output of the video signal amplifying section 5; The green signal switching unit 10 includes a switching switch SW1 (SW2) for selectively switching only the green signal and a variable resistor (VR4-VR6) for adjusting the contrast of the RG B signal selected by the switching switch (SW1) (SW2). RG B of the green signal switching unit 10 A drive unit comprising a transistor (Q10-Q12) for outputting the call output to the output unit 20 by performing sub-brightness adjustment by the separated synchronization signal of the synchronous separation and amplifying unit 25 and the variable resistors VR7-VR9 ( And a green signal switching circuit.