KR20010035729A - A spot killer circuit - Google Patents

Abstract

PURPOSE: A spot killer circuit is provided to prevent that a fluorescent screen of a CRT is degraded by raising an electric potential of a screen brightness adjusting terminal of a video amplifier circuit to be dark in a screen when blocking a power and removing a momentary spot occurrence. CONSTITUTION: A voltage transmitting resistor(R1) transmits an operating voltage(Vdc1). A capacitor(C1) and a Zener diode(ZD1) are connected with the voltage transmitting resistor(R1) in parallel. A transistor(Q1) is connected with a connection point of the capacitor(C1) and the Zener diode(ZD1) at its emitter terminal and receives a bias voltage(Vdc2) at its base terminal through a resistor(R2). A diode(D1) is connected with a collector terminal of the transistor(Q1) for transmitting an output of the transistor(Q1) to a screen brightness voltage adjusting terminal of a video amplifier circuit.

Description

Spot killer circuit {A spot killer circuit}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly, to a circuit for eliminating a spot phenomenon that occurs when a power supply is cut off or when a power saving mode is switched.

The display device is a representative peripheral device of a computer that forms and displays an image so that a user can recognize a signal transmitted from the computer. The basic configuration of the internal circuit will be briefly described with reference to FIG. 1. As shown, a video card 10 mounted in a computer (not shown) for providing video signals R, G, B and horizontal / vertical synchronization signals H_Sync / V_Sync necessary for image formation, and the video. The microcomputer 20 generates a screen control signal for controlling the monitor screen by receiving the horizontal / vertical synchronization signal from the card 10 and the electron gun of the CRT 80 receiving the synchronization signal H_Sync / V_sync. The vertical deflection circuit 30 and the horizontal deflection circuit 30 execute horizontal and vertical deflection so that the electron beam is deflected from the upper left part to the lower right part of the CRT 80 by the deflection yoke (DY) to form an image like a photograph. Supplying a high voltage to the anode terminal of the CRT 80 by using a deflection circuit 40, a retrace pulse generated from the output terminal of the horizontal deflection circuit 40 using the principle of switching circuit and high voltage technology. High voltage circuit 50, a video preamplifier 60 for amplifying low image signals R, G, and B transmitted from the video card 10 by a low voltage amplifier, and maintaining a constant voltage level, and the video preamplifier 60. And amplified by a signal of 30V _PP ~ 40V _PP and a video main amplifier 70 supplying energy to each pixel of the cathode ray tube 80.

Generally, products using CRTs (hereinafter referred to as CRTs) used for television receivers and monitors. When the power is cut off under normal operation, the horizontal and vertical deflection circuits stop the deflection operation as soon as the power is cut off. The high voltage has a long discharge time and gradually drops in voltage. In addition, the heater for hot electron emission embedded in the CRT is also gradually cooled, so that the hot electron emission in the CRT is gradually decreased while the heater is cooling.

At this time, the high pressure charged in the CRT is gradually discharged to attract hot electrons emitted from the heater to the front of the CRT, but since the vertical and horizontal deflection circuits are stopped, the hot electrons emitted from the heater are directly attracted to the front of the CRT. Therefore, the screen emits light with one bright spot, which burns off the exposure surface of the CRT. This phenomenon is called spot.

On the other hand, the CRT uses an automatic beam current adjustment (hereinafter referred to as ABL) circuit to adjust the brightness of the screen. Recently, computer users are increasingly using the brightness of the screen when using the CRT. In this case, in order to brighten the screen of the CRT, the brightness is increased by increasing the ABL level. When the power is turned off while the brightness is bright, the spot phenomenon is likely to occur, and the spot phenomenon shortens the life of the CRT. .

The conventional technique for removing such spot phenomenon prevents spot phenomenon by temporarily dropping the voltage applied to the first grid G1 in the electron gun to the negative voltage when the power is cut off or when switching to the power saving mode. . However, there is a problem that the amount of electrons emitted from the heater remains to be suppressed at source.

An object of the present invention is to eliminate the spot phenomenon that occurs in the display device.

Another object of the present invention is to provide a spot killer circuit capable of keeping the voltage of the cathode positively at the screen brightness voltage applied to the video amplifier stage when the power is cut off or the power saving mode.

A feature of the configuration of the present invention for achieving this object is a capacitor that accumulates a constant charge when the power is applied, and the charge accumulated on the capacitor is turned on when the power is cut off or the display mode is changed. It is characterized in that it comprises a switching element for increasing the potential applied to the screen brightness control stage of the video amplifier circuit.

A detailed feature of the present invention is that the switching element is provided with the voltage provided from the capacitor to the emitter stage and biased by the voltage applied to the base stage, and through the collector stage to transfer the charge current to the screen brightness level stage It consists of points.

1 is a block diagram showing an internal configuration of a general display device;

2 is a circuit diagram showing the configuration of a spot killer circuit according to the present invention.

Hereinafter, the configuration and operation thereof according to the present invention will be described with reference to the accompanying drawings. 2 is a circuit diagram showing the configuration of a spot killer circuit according to the present invention.

A connection point between a capacitor C1 and a Zener diode ZD1 connected in parallel with a voltage transfer resistor R1 for transmitting an operating voltage Vdc1 and the resistor R1, and the capacitor C1 and a Zener diode ZD1. The emitter stage is connected to the transistor Q1 which receives the bias voltage Vdc2 through the resistor R2 at the base stage, and is connected to the collector stage of the transistor Q1, and outputs the video amplifier circuit. It is configured to include a diode (D1) for transmitting to the screen brightness voltage control stage.

When the monitor power is turned on, the voltage of Vdc1 rises, the capacitor C1 is charged to the potential of Vz, and Vdc2 is biased so that the transistor Q1 is cut off.

The potential charged in the capacitor C1 at power off is caused by the transistor Q1 to flow a charging current through Va, which is the screen brightness level, to raise the VA potential so that the screen becomes very dark at the moment of interruption. It is suppressed to generate.

As described above, the present invention has the effect of preventing the deterioration of the fluorescent surface of the cathode ray tube by eliminating instantaneous spots by increasing the potential of the screen brightness control stage of the video amplifier circuit to darken the screen when the power is turned off. .

Claims (3)

A capacitor that accumulates a constant charge when power is applied; When the power is cut off or the display mode is changed, the display device comprises a switching device that is turned on to apply the charge accumulated in the capacitor to the screen brightness control terminal of the video amplifier circuit to increase the potential Spot killer circuit of the device. The method of claim 1; The switching device is configured to receive a voltage provided from the capacitor to the emitter stage is biased by the voltage applied to the base stage, and a transistor for transferring the charge current to the screen brightness level stage through the collector stage Spot killer circuit of the device. The method of claim 2; And a zener diode for controlling the potential charged in the capacitor is connected to the connection point of the emitter terminal of the capacitor and the transistor.