KR910003036Y1 - Color monitors background color selection circuit at using mono color signal - Google Patents

Abstract

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Description

Background color selection circuit of color monitor when monochrome signal is used

1 is a diagram illustrating a switch method of an image output amplifier.

2 is a circuit diagram of the present invention.

The present invention relates to a background color selection circuit of a color monitor when a single color signal is input to the color monitor.

Conventionally, even when a complex signal color monitor is used, the background color is fixed to one color when a monochromatic circuit is input from a computer, and thus it is not possible to select another background color even if it is not suitable for the user's taste or is bored.

The present invention has been devised in view of this point, and the user can select one color among white, blue, jade, green, yellow, and amber according to their preferences and use it as the background color. The purpose of the present invention is to reduce the efficiency caused by fatigue due to the use of monotonous color, but to eliminate boredom. Referring to the configuration and operation of the present invention in detail based on the accompanying drawings as follows.

1 shows a method of switching an image output amplifier. The chromaticity IC of the image output amplifier is connected to the monitor through the resistors RM ₁ and RM ₂ , and the emitter is connected to the grounded resistors R ₂ and R. ₃ ) is connected to the image output amplification transistor (TRM ₁ ) connected in parallel, and the point ⓐ is configured to be connected to the transistor (TR ₁ ) with the emitter grounded, and when the monitor is in color mode, the potential at point ⓑ is low ( In the low state, the transistor TR ₁ does not operate and the transistor TRM ₁ operates.

However, when the monitor is in the monochrome mode, the potential at the point ⓑ becomes high and the transistor TR ₁ is operated so that the image output amplifier transistor TRM ₁ does not operate. You will not be able to run it, and the corresponding color will not appear on the screen.

Figure 2 shows the overall circuit diagram of the present invention designed to switch the image output of each of the R, G, B stages using the above method. The R-drive circuit input terminal is connected through a collector (R ₁ ) and a collector of transistor (TR ₁ ) with an emitter grounded, and the base of the transistor (TR ₁ ) connected with diode (D ₁ ) has a base with tint volume. Connected via resistor R ₁₈ , the emitter is connected via a resistor R ₂ , R ₁₇ and a collector of transistor TR ₁₁ connected to the anode side of diode D ₃ , and the emitter is connected to a grounded transistor TR ₂ ) the base is connected to the transistors TR ₄ , TR ₈ , TR ₁₀ through the diode D ₄ and the emitter is connected to the collector and diode D ₁₆ of the grounded transistor TR ₃ . , D ₁₇ ), and is connected to the base of the transistor TR ₅ via a diode D ₈ , and the base of the transistor TR ₂ is a zener diode D ₂ and a resistor R ₃ . and the emitter of the diode via (D ₃₎ transistor (TR _11), collector power source The connection to the base of the transistor (TR ₃₎ and, an emitter grounded transistor base, the collector of the (TR ₄₎ is connected to the collector of the base and the transistor (TR ₈₎ of the transistor (TR _5), an emitter grounded transistor ( The base and the collector of TR ₇ are connected to the collector of transistor TR ₅ , and the emitter is connected to the base of transistor TR ₆ which is grounded and the base of transistor TR ₉ , and to the base of transistor TR ₃ . Is a collector of transistor (TR ₄ ), through a resistor (R ₆ ), through a collator and (R ₁₆ ) of transistor (TR ₈ ), the collector is connected to a 3.58MHz trap circuit, and the emitter is connected to a grounded transistor (TR _10). Is connected to the base of the transistor TR ₈ , and the base of the transistor TR ₈ is connected to one terminal of the switch SW ₁ through a resistor R ₈ , and the collector is connected through a color erase circuit input and a resistor R ₂₀ . emitter of a grounded base transistor (TR ₁₂₎ Is connected to the collector of the transistor (TR ₈₎ has a resistance (R ₂₎ and a resistance (R ₁₇₎ the other terminal of the collector, the switch (SW ₁₎ of the transistor (TR ₇₎ through between the resistance (R ₁₁₎ The G-drive circuit input is connected to the emitter through a resistor (R ₉ ), the base is connected to the collector of transistor (TR ₇ ), and the collector and transistor of transistor (TR ₅ ) are connected, and the base is a transistor. is connected to the collector of the transistor (TR ₆₎ connected with the base (TR _4), B- drive input is connected to the base and the base of the base and the transistor (TR ₁₎ of the transistor (TR _4), an emitter And a collector of the grounded transistor TR ₉ and a resistor R ₁₄ .

When the switch SW ₁ is short-circuited, it is in a monochromatic mode and the transistor TR ₁₂ is turned on to stop the operation of the color erasing circuit, and the transistor TR ₈ is turned on to operate the transistor R ₃ . Since it does not affect the operation of the transistors TR ₁ , TR ₅ , and TR _{9 at the} R, G, and B input terminals, and the transistor TR ₁₀ does not operate, the operation of the _3.5 MHz trap circuit is stopped. Stop to widen the band of video signal frequency.

At this time, when the switch SW ₁ is opened, the color mode is entered. When the switch (SW ₁ ) is short-circuited and is in the monochromatic mode, depending on the operation of the transistors TR ₁ , TR ₆ , and TR ₉ of the R, G, and B stages according to the rotation of the tint volume, The background color of the color monitor changes in the order of blue-jade-green-yellow-amber. When the background color of the monitor becomes white, the tint volume is in a minimum state. At this time, since the base and emitter voltages of the transistor TR ₁₁ are low, the transistors TR ₄ and TR ₁ do not operate and the transistor TR ₃ ) is in a conducting state, and all of the transistors TR ₅ , TR ₆ , and TR ₉ do not operate, and thus do not affect each of the image output terminals of R, G, and B, so that white is displayed on the screen. At this time, the operation of the transistor TR ₂ has no effect.

If the monitor background color of which is blue it is to tint the volume is rotated, and the conduction of the transistor (TR _11), when the emitter voltage of the transistor (TR ₁₁₎ to the conduction of the Zener diode (D ₆₎ the zener voltage is 2V In this case, since the transistor TR ₃ does not operate and the tint voltage does not exceed 6.2 V, which is the zener voltage of the zener diode D ₂ , the transistor TR ₂ does not operate.

Therefore, since the transistor TR ₁ is conducting, the R-image output does not drive the cathode ray tube, the G-image output does not drive the cathode ray tube, and only the B-image output where the transistor TR ₉ does not operate has a cathode ray tube. Drive to display blue on the screen.

If the background color of the monitor that is Turquoise Tint volume is rotated to and interconnecting the transistor (TR _11), when the emitter voltage of the transistor (TR ₁₁₎ to the conduction of zener diode (D ₉₎ the zener voltage is 3.6V In this case, the transistor TR ₁ is turned on so that the R-image output does not drive the cathode ray tube, whereas the transistors TR ₆ and TR ₉ do not operate, so that the G. B image output drives the cathode ray tube. Is colored turquoise.

When the background color of the monitor becomes green, the tint volume rotates to conduct the transistor TR ₁₁ , and the zener diode D ₁₇ whose emitter voltage of the transistor TR ₁₁ has a zener voltage of 5.1 V is used. In this case, the transistors TR ₁ and TR _{9 at the} R and B input terminals are conducting and cannot drive the cathode ray tube, while the transistor TR ₆ still does not operate, so that only the G-image output generates the cathode ray tube. The drive will display green on the screen.

When the background color of the monitor becomes yellow, the tint volume rotates to conduct the transistor TR ₁₁ , and the emitter voltage of the transistor TR ₁₁ conducts the zener diode D ₂ whose zener voltage is 6.2V. In this case, the transistor TR ₅ is turned on, and the transistors TR ₁ , TR ₅ , and TR _{6 at the} R, G, and B drive input terminals do not operate, and the transistor TR ₉ is turned on, and R Only yellow, G, and image outputs drive the cathode ray tube, so yellow is displayed on the screen.

If the background color of the monitor that is amber, tint volume is rotated by conducting the transistor (TR ₁₁₎ by conduction of a Zener diode (D ₁₂₎ is the emitter voltage of the transistor (TR ₁₁₎ Zener voltage is 7.5V transistors This is possible by operating (TR ₆ ). Amber is a color that is slightly removed from yellow, so it uses a resistor (R ₁₀ ) to lower the green signal to some extent to drive the video output amplifier.

Based on the above, Table 1 and Table 2 show the operating states of the R, G, B image output amplifiers according to their respective background colors, and whether the transistors were operated.

The present invention turns on or off the R, G, and B Far East circuit input stage transistors according to the operation of the tint volume, so that one of the white, blue, jade, green, yellow, and amber colors can be selected as the monitor background color. Due to the use of the advantage that can reduce the monotony and efficiency degradation and fatigue that comes to the user.

Claims (1)

The input terminal of the R-drive circuit is connected through a collector (R ₁ ) and a collector of transistor (TR ₁ ) with an emitter, and the base of the transistor (TR ₁ ) connected with diode (D ₁ ) has a base with tint volume. Connected via resistor R ₁₈ , the emitter is connected via a resistor R ₂ , R ₁₇ and a collector of transistor TR ₁₁ connected to the anode side of diode D ₃ , and the emitter is connected to a grounded transistor TR ₂₎ of the collector, the diode (and D ₄₎ is connected to the anode, such as a diode (d ₁₆₎ through the collector, a diode (D ₁₅₎ of an emitter grounded transistor (TR ₃₎ via a further reverse-biased ( The emitter is connected to the base and collector of the grounded transistors TR ₅ and TR ₇ through D ₈ ), and the base of the transistor TR ₂ is a zener diode (D ₂ ) resistor (R ₃ ) and a diode (D). ₃₎ through the emitter of the transistor (TR _11), a resistance (R ₅₎ and the zener die De (D ₆₎ to the emitter and the emitter grounded via the collector of a power source, a transistor _{(TR 3, TR 8, TR} 10) base, a diode (D _10, D ₉₎ of the transistor (TR ₄₎ associated with the base collector, a base, such as The emitter is grounded through the and resistor, and the collector is connected to the collector of transistor TR ₈ through transistor resistors R ₁₁ and R ₇ , and the emitter is the base, resistor R ₁₃ of the grounded transistor TR ₇ . Through the diodes D ₁₁ , D ₁₂ and D ₁₃ , the emitter is grounded, and the collector is connected via the resistor R ₁₀ to the collector of transistor TR ₅ and the base of the transistor TR ₆ , Dio _15. ) the base of the diode (D ₁₁₎ anode and the transistor (TR ₃₎ of the collector and the diode (D _16), the emitter is connected with the emitter base of the grounding transistor (TR _9), a transistor (TR ₃₎ through the through Passes through the diode D ₅ through the collector of the transistor TR ₄ , through the resistors R ₆ and R ₁₆ . The emitter is grounded, and the collector is connected to the collector of the transistor TR ₈ which is grounded between the base and the resistors R ₆ and R ₁₆ of the transistor TR ₁₀ connected to the 3.58 MHz trap circuit. One terminal of the switch SW ₁ through the base resistor R ₈ of TR ₈ , the collector is connected through a color erase circuit input and a resistor R ₂₀ , and the emitter is the base of the grounded transistor TR ₁₂ . is connected with, the collector resistor (R ₂₎ and a resistance (R ₁₇₎ the collector and the switch (SW ₁₎ of the transistor (TR ₇₎ through between the resistors (R _11, R ₇₎ of the transistor (TR ₈₎ The G-drive circuit input is connected to the other terminal, and the emitter is grounded through the resistor R ₉ , and the base of the transistor TR ₅ connected through the diode D ₇ and the collector of the transistor TR ₇ . The collector and emitter are grounded, and the base is the base and diode of transistor TR ₄ . It is connected to the collector of transistor TR ₆ , which is connected to the transistors D ₁₁ , D ₁₂ , and D ₁₃ through a resistor R ₁₃ , and the B-drive circuit input terminal has a base of the transistor TR ₄ . When a monochromatic signal is used, the diodes D ₁₆ and D ₁₇ are connected through a resistor R ₁₅ , and the emitter is connected through a collector of the grounded transistor TR ₉ and a resistor R ₁₄ . Background color selection circuit of color monitor.