KR200151605Y1 - Apparatus for stabilizing cathode voltage in a monitor - Google Patents

Abstract

The present invention relates to a cathode voltage stabilization device of a monitor, the device of the present invention, and the power supply unit for generating and outputting a cathode voltage; A monitor having an image output unit 3 for receiving the cathode voltage to adjust the contrast of an image signal and outputting the image signal to the receiving pipe 2, wherein the power supply unit 1 and the image output unit ( 3) a voltage stabilizer 10 connected to each other to signal-process the cathode voltage input from the power supply unit 1 and output a constant cathode voltage to the image output unit 3 at all times. By processing the cathode voltage V1 input from the power supply unit 1 and outputting a constant cathode voltage V3 to the video output unit 3 at all times, the brightness of the monitor screen is stabilized. have.

Description

An apparatus for stsbilizating a cathode-voltage in a monitor

The present invention relates to a cathode voltage stabilization device of a monitor which is adapted to always supply a constant cathode voltage to the image output of the monitor.

In general, the image output unit 3 receives and amplifies the R (red), G (green), and B (blue) signals from the image amplifying unit 4, as shown in FIG. Supply to the cathodes of R (Red), G (Green), and B (Blue) tank guns of

In this case, the video output unit 3 is operated by (1) a power supply voltage (Vcc: hereinafter referred to as a cathode voltage) of 85V from the power supply unit, and operates by using the cathode voltage. Adjust the contrast.

Therefore, when the cathode voltage changes, the brightness of the screen also changes. Therefore, in order to stabilize the screen color, it is necessary to maintain the cathode voltage output from the power supply unit 1 and supply it to the image output unit 3.

However, in the conventional monitor, there is a problem that an uneven cathode voltage is supplied to the video output unit 3 due to a change in power load or the like, and the screen brightness becomes unstable.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a cathode voltage stabilization device of a monitor that is to always supply a constant cathode voltage to the image output unit (3).

Cathode voltage stabilizing apparatus for a monitor according to the present invention for achieving the above object, the power supply for generating and outputting a cathode voltage; A monitor having an image output unit for outputting the image signal to a receiving pipe after adjusting the contrast of an image signal by receiving a cathode voltage, which is connected between the power supply unit and the image output unit, and is input from the power supply unit. And a voltage stabilizer configured to signal-process the cathode voltage thus outputting a constant cathode voltage at all times.

That is, the device of the present invention is to process the cathode voltage input from the power supply, and to output a constant cathode voltage to the image output unit, thereby to stabilize the brightness of the monitor screen.

1 is a block diagram showing a cathode voltage supply device of a typical monitor;

2 is a circuit diagram showing a cathode voltage stabilization device of a monitor according to the present invention.

* Names of symbols for main parts of the drawings

1: power supply 2: water pipe

3: image output unit 4: image amplification unit

10: voltage stabilizer 11: ripple attenuator (R1, C1)

12: Darlington circuit (Q1, Q2) 13: constant voltage section

R4, R5: sense resistor ZD: Zener diode

Q 1,2,3: first 1,2,3 transistors

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

2 is a circuit diagram illustrating a cathode voltage stabilization device of a monitor according to the present invention.

As shown in FIG. 2, the apparatus according to the present invention is composed of a power supply unit 1, a water pipe 2, an image output unit 3, an image amplifier 4, and a voltage stabilizer 10. .

The voltage stabilization unit 10 includes: a ripple attenuator 11 for delaying and outputting a cathode voltage V1 input from the power supply unit 1 by RC time constant and removing a ripple component; Comprising a first transistor Q1 and a second transistor Q2, the collector terminal (input side) of the first transistor Q1 receives the cathode voltage V1 from the power supply unit 1, and the first transistor. The base terminal of Q1 receives the output voltage V2 of the ripple attenuator 11, and the emitter terminal (output side) of the second transistor Q2 is connected to the cathode voltage supply terminal of the image output unit 3. Connected Darlington circuits 12; And a constant voltage unit 13 for sensing the output voltage V3 of the darlington circuit 12 and adjusting the magnitude of the output voltage of the darlington circuit 12 according to the sensed voltage. .

In addition, the constant voltage unit 13 includes: sensing resistors R4 and R5 for sensing an output voltage of the darlington circuit 12; A base terminal receives the sensing voltage, a collector terminal is connected in parallel between the output side of the ripple attenuator 11 and the base terminal of the first transistor Q1, and the emitter terminal is grounded through the zener diode ZD. The third transistor Q3 is configured.

Then look at the operation and effects of the device according to the present invention configured as described above in detail.

When the cathode voltage V1 (for example, 87V) is output from the power supply unit 1, the ripple attenuator 11 receives the cathode voltage V1 and outputs the ripple component by delaying the output by RC time constant. Attenuate

Accordingly, the output voltage V2 is input from the ripple attenuator 11 to the base terminal of the first transistor Q1 of the darlington circuit 12, and the power supply unit is connected to the collector terminal of the first transistor Q1. Since the cathode voltage V1 is inputted from (1), the voltage V1 inputted to the collector terminal of the first transistor Q1 is dropped by a predetermined voltage (that is, about 1.4V, that is, the emitter of the first and second transistors). Base-to-base voltage Voltage is dropped through the emitter terminal of the second transistor Q2.

The image output unit 3 is operated by receiving a cathode voltage V3 (typically 85V) output from the darlington circuit 12. The contrast of the R, G, and B signals using the cathode voltage V3 is operated. Adjust

In this case, the constant voltage unit 13 is to maintain the output voltage V3 of the Darlington circuit 12 at a constant level at all times, and emitter stage of the second transistor Q2 of the Darlington circuit 12 The voltage V3 output from the sensor is sensed and the base voltage V2 of the first transistor Q1 is adjusted according to the sensed voltage.

That is, the voltage V3 output from the emitter terminal of the second transistor Q2 of the darlington circuit 12 is sensed through the sensing resistors R4 and R5 to detect the sensed voltage by the third transistor Q3. To the base end of the

Accordingly, since the base voltage of the third transistor Q3 is changed according to the collector voltage V2 of the second transistor Q2, the base voltage V1 of the first transistor Q1 can be adjusted.

For example, when the collector voltage V2 of the second transistor Q2 rises, the voltage sensed through the sensing resistors R4 and R5 also increases, thereby increasing the base voltage of the third transistor Q3. Since a predetermined amount of the voltage V1 applied to the base terminal of the first transistor Q1 is applied to the collector terminal of the third transistor Q3 and discharged to the ground through the emitter terminal, the first transistor Q1 The base voltage V1 of is decreased, and as a result, the emitter voltage V2 of the second transistor Q2 is reduced.

That is, when the emitter voltage V2 of the second transistor Q2 rises, the base voltage of the first transistor Q1 is decreased by the constant voltage unit 13 to emit the emitter of the second transistor Q2. By reducing the voltage, the constant voltage V3 can always be obtained through the emitter terminal of the second transistor Q2.

As described above, the apparatus of the present invention performs a signal processing on the cathode voltage V1 input from the power supply unit 1, and outputs a constant cathode voltage V3 to the image output unit 3 at all times. The effect is to stabilize the brightness.

Claims (3)

A power supply 1 for generating and outputting a cathode voltage; In the monitor provided with a video output unit (3) for receiving the cathode voltage to adjust the contrast of the video signal, and outputs the video signal to the water pipe (2), It is connected between the power supply unit 1 and the image output unit 3 to signal-process the cathode voltage input from the power supply unit 1 to always output a constant cathode voltage to the image output unit 3. Cathode voltage stabilization device for a monitor, characterized in that it comprises a voltage stabilization unit (10). The method of claim 1 wherein the voltage stabilization unit 10, A ripple attenuator (11) for delaying and outputting the cathode voltage (V1) input from the power supply unit (1) by RC time constant and removing the ripple component; Comprising a first transistor Q1 and a second transistor Q2, the collector terminal (input side) of the first transistor Q1 receives the cathode voltage V1 from the power supply unit 1, and the first transistor. The base terminal of Q1 receives the output voltage V2 of the ripple attenuator 11, and the emitter terminal (output side) of the second transistor Q2 is connected to the cathode voltage supply terminal of the image output unit 3. Connected Darlington circuits 12; And It is composed of a constant voltage unit 13 for sensing the output voltage (V3) of the Darlington circuit 12, and adjusts the magnitude of the output voltage of the Darlington circuit 12 according to the magnitude of the sensed voltage. A cathode voltage stabilization device for a monitor. The method of claim 1 wherein the constant voltage unit 13, Sensing resistors R4 and R5 for sensing an output voltage of the darlington circuit 12; A base terminal receives the sensing voltage, a collector terminal is connected in parallel between the output side of the ripple attenuator 11 and the base terminal of the first transistor Q1, and the emitter terminal is grounded through a zener diode ZD. A cathode voltage stabilization device for a monitor, comprising: a third transistor (Q3).