KR0135999B1 - The spot elimination circuit on the cathode ray tube - Google Patents

Abstract

According to the present invention, a cathode which essentially eliminates spots by discharging the voltage applied to the cathode ray tube at the same time as the deflection circuit stops operation when switching from the normal mode to the suspend mode The spot removal circuit of the tube.

The present invention provides a driving circuit for a cathode ray tube that supplies a control grid voltage (G1) of a cathode ray tube through a predetermined power transformer, wherein the control grid voltage of the cathode ray tube is quickly discharged when switching from a normal mode to a suspend mode. It is characterized in that it comprises a spot removal means for removing the spot phenomenon of the cathode ray tube to be able to.

Therefore, the present invention has a useful effect of solving the problem of deterioration of a cathode ray tube due to a spot phenomenon, that is, a pixel which is a light emitting material in the cathode ray tube gradually burns out and eventually loses its function as a cathode ray tube.

Description

Spot elimination circuit of cathode ray tube

1 is a view showing a part of a conventional cathode ray tube driving circuit,

2 is an embodiment of a spot elimination circuit according to the present invention,

3 is a waveform diagram showing an operating state of the main part of FIG.

* Description of the symbols for the main parts of the drawings *

10: power primary circuit 20: spot removal means

30: vertical circuit IC1: flip-flop

R1 to R4: Resistor C1 to C4: Capacitor

ZD1: Zener Diodes D1, D2: Diodes

T: Trans Q1: Transistor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spot removal circuit of a cathode ray tube, and in particular, when switching from a normal mode to a suspend mode, a voltage applied to the cathode ray tube can be rapidly changed at the same time as the deflection circuit is stopped. The present invention relates to a spot elimination circuit of a cathode ray tube which has been almost eliminated by discharging spots.

In general, the VESA standard states that the circuit is operated in suspend mode when there is a horizontal synchronous signal and no vertical synchronous signal, and all circuits currently developed and equipped with Display Power Management System (DPMS) function satisfy this condition. It is designed to be.

For reference, the DPMS is a function that prevents normal operation by cutting off some power to prevent unnecessary power consumption when the monitor does not have a predetermined synchronization signal input from the computer. ), Off mode, suspend mode, and stand-by mode. There are four functions, which are being used in monitors recently.

In other words, the off mode operates when there is no vertical, horizontal sync signal and green video signal from the computer, and the suspend mode operates when there is no vertical sync signal and green video signal, and the standby mode performs horizontal sync signal and green. It works when there is no video signal.

Here, the spot phenomenon of the conventional monitor generated when switching from the normal mode to the suspend mode as described in the VESA mode will be described.

With reference to the accompanying drawings, FIG. 1, the power supply primary side circuit portion 10 is located at the primary side of the power transformer T, between the secondary side of the transformer T and a ground terminal. (R3), the capacitor (C3) and the diode (D2) is connected in series, the contact point of the capacitor (C3) and diode (D2) is connected to the other end of the capacitor (C4), one end is grounded, and the control grid of the cathode ray tube The pressure G1 is supplied.

Therefore, when power is supplied, the power supply primary side circuit unit 10 is operated, and the secondary voltage induced through the transformer T is charged to the capacitor C3 through the diode D1 and the resistor R3, and at the same time, the cathode ray The predetermined voltage G1 is supplied to the control grid of the pipe.

As can be seen from the circuit configured as described above, although the operation of the horizontal stage deflection circuit is completely stopped when switching from the normal mode to the suspend mode, the charge charged in the capacitor C3 in the normal mode gradually discharges. The control grid voltage G1 of the tube is also gradually discharged. This phenomenon provides a direct cause of spots on the screen of the cathode ray tube.

In the cathode ray tube, the spot phenomenon frequently occurs and the longer the spot generation time, the light emitting material in the cathode ray tube gradually burns out, and eventually loses its role as a cathode ray tube.

Therefore, spot generation has a fatal effect on all products employing the cathode ray tube.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to provide a spot by rapidly discharging the control grid voltage of the cathode ray tube at the same time as the deflection circuit stops operating when switching from the normal mode to the suspend mode. It is to provide a spot removal circuit of a cathode ray tube to eliminate the fundamental problem that occurs.

In order to achieve the above object, the present invention provides a driving circuit for a cathode ray tube that supplies a control grid voltage (G1) to a cathode ray through a predetermined power transformer, wherein the cathode ray tube is switched from a normal mode to a suspend mode. It is characterized in that it comprises a spot removing means for removing the spot phenomenon of the cathode ray tube to quickly discharge the control grid voltage of the.

Hereinafter, an embodiment of a spot removing circuit according to the present invention will be described in more detail with reference to the accompanying drawings.

In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

2 is an embodiment of the spot elimination circuit according to the present invention, the power supply primary side circuit portion 10 is connected to the primary side of the power transformer (T), a diode between the secondary side and the ground terminal of the transformer (T) (D1), resistor (R3), capacitor (C3), and diode (D2) are connected in series, and the contact point of capacitor (C3) and diode (D2) is connected to the other end of capacitor (C4) whose one end is grounded. In the driving circuit of a conventional cathode ray tube which supplies the control grid voltage G1 of the cathode ray tube, the present invention quickly discharges the charge charged in the capacitor C3 when switching from the normal mode to the suspend mode. As a result, it is configured to further include a spot removing means 20 for removing the spot phenomenon of the cathode ray tube by quickly discharging the control grid voltage of the cathode ray tube.

In the spot removing means 20, a vertical synchronization signal is input to the clock terminal CLK, a resistor R1 and a capacitor C1 are coupled to the input terminal RK, and a zener diode ZD1 is connected. The output terminal Q1 of the flip-flop IC1 supplied with the operating power Vcc is connected to the vertical circuit unit 30, and another output terminal Q2 is connected through the resistor R2 and the capacitor C3. The terminal is connected to the base of the grounded transistor Q1, and the collector terminal of the transistor Q1 is configured to be connected to one end of the capacitor C3 on the secondary side of the power supply T via the resistor R4. .

3 is a waveform diagram of the flip-flop (IC1) output of the spot removing means 20, wherein (3-1) is an output state in the normal mode operation, and (3-2) is an output state in the suspend mode operation. Indicates the state.

Hereinafter, the operation state of the present invention configured as described above.

First, prior to explaining the operation of the present invention, as described above, it is operated in the suspend mode when there is a horizontal synchronization signal H and no vertical synchronization signal V as defined by the VESA mode. Keep in mind.

First, when power is supplied to the circuit according to the present invention, in the normal mode, the vertical synchronization signal V is input to the clock terminal CLK of the flip-flop IC1, so that the flip-flop CI1 is shown in FIG. As described above, the vertical synchronization signal V is output to the output terminal Q1 and the vertical synchronization signal V is not output to the output terminal Q2.

Accordingly, the vertical synchronization signal V output to the output terminal Q1 is applied to the vertical circuit unit 30, but there is no output to the output terminal Q2 to operate the road surface mode.

However, when the operation condition is switched from the normal mode to the suspend mode, the horizontal synchronizing signal H is present and the vertical synchronizing signal V is absent, so that the flip of the spot removing means 20 is flipped as shown in FIG. There is no output to the flop IC1 output terminal Q (zero voltage), and a predetermined waveform is output to the output terminal Q2.

Accordingly, the signal output to the output terminal Q2 of the flip-flop IC1 is applied to the base of the transistor Q1 through the resistor R2 and the capacitor C2, and thus the transistor Q1 is turned on. In the normal mode due to the turn-on of the transistor Q1, the electric charge charged in the capacitor C3 is discharged to the ground through the resistor R4 and the collector and emitter of the transistor Q1. This discharge proceeds very instantaneously.

The control grid voltage G1 applied to the electrode and the cathode ray tube decreases abruptly so that no spot phenomenon occurs. In other words, when the deflection circuit stops operating, the spot phenomenon is eliminated by discharging the voltage G1 rapidly through the resistor R4 and the transistor Q1.

As described above, the present invention has a useful effect of solving the problem of deterioration of a cathode ray tube due to a spot phenomenon, that is, a pixel which is a light emitting material in the cathode ray tube gradually burns out and eventually loses its function as a cathode ray tube.

The above description is only a description of one embodiment of the present invention, the present invention can be variously modified and manufactured within the scope of the configuration.

Claims (2)

The power supply primary side circuit unit 10 is connected to a primary side of the power transformer T, and a diode D1, a resistor R3, a capacitor C3, and a diode are connected between the secondary side of the transformer T and the ground terminal. D2) is connected in series, the contact point of the capacitor (C3) and the diode (D2) is connected to the other end of the capacitor (C4), one end is grounded, and to supply the control grid voltage (G1) of the cathode ray tube of the cathode ray tube In the driving circuit, the spot charge is removed from the cathode ray tube by quickly discharging the charge charged in the capacitor C3 so as to quickly discharge the control grid voltage of the cathode ray tube when switching from the normal mode to the suspend mode. Spot removal circuit of the cathode ray tube, characterized in that it further comprises a spot removal means (20). The method of claim 1, wherein the spot removing means 20, a vertical synchronizing signal is input to the clock terminal CLK, and a resistor R1 and a capacitor C1 are coupled and connected to the input terminal RK. The output terminal Q1 of the flip-flop IC1 supplied with the operating power through the zener diode ZD1 is connected to the vertical circuit unit 30, and the output terminal Q2 is connected to the emitter terminal through the resistor R2 and the capacitor C3. Is connected to the base of the grounded transistor Q1, and the collector terminal of the transistor Q1 is configured to be connected to one end of the capacitor C3 on the secondary side of the power supply T via the resistor R4. The spot removal circuit of the cathode ray tube characterized by the above-mentioned.