KR950003482Y1 - Spot-killer circuit of crt - Google Patents

Abstract

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Description

Spot killer circuit for CRT vacuum tube

1 is a conventional spot killer circuit diagram.

Figure 2a is a spot killer circuit diagram according to the present invention.

FIG. 2B is an operation timing diagram showing the operation characteristics of FIG. 2A.

2 is a sectional view taken along the line A-A of FIG.

The present invention is directed to an improvement in spot killer circuits, especially in systems using CRT tubes as display devices.

In a TV receiving system or display device using a CRT as a recall display device, a circuit for removing the CRT is provided to prevent spots on the display panel of the CRT by shortening the power supply.

FIG. 1 uses the B ⁺ voltage obtained from a power supply unit provided in the receiver as a spot killer circuit for this purpose. The B ⁺ voltage is a plurality of stable predetermined level supply voltages supplied to various circuit blocks of the receiver.

In the figure, G ₁ is the first grid provided in the electron gun of the CRT and a supply voltage of -200 V is a voltage obtained from a flyback transformer (FBT). Therefore, the spot filler circuit is operated at a voltage B ⁺ lower than G _{1 due} to the signal flow direction of the diode D ₁ (D ₂ ). The FBT voltage is supplied to the grid during receiver operation, but at power-off the grid voltage falls to ground to stabilize the CRT.

However, the problem is that the system of the CRT is diversified and, in some cases, the B ⁺ voltage is supplied in a system where the horizontal frequency f _H is increased, so that the first circuit cannot be used as it is. In other words, the first circuit cannot be used in such a display system due to the corresponding B ⁺ voltage when the horizontal frequency is high.

Accordingly, an object of the present invention is to provide an improved spot killer circuit device regardless of horizontal frequency and without using B ⁺ voltage for general use in various modes of monitors.

The circuit which achieves the object of the present invention is a spot killer circuit of a system using a CRT tube as a display device, the voltage of the flyback transformer (FBT) through a grid voltage supply (6) consisting of a resistor A second switching unit 4 and a second switching unit 4 which are electrically turned on and off between the first grid G ₁ of the CRT and the FBT voltage receiving the divided voltage. 1 is configured of a capacitor (C) for supplying switching power to the switching unit (2), the heater power is connected to the capacitor via a diode (D ₃ ), and is connected to the first switching unit (2) as an input voltage, And on and off of the first switching element of the heater power-off to eliminate spots of the CRT.

Hereinafter, the present invention will be described in detail with reference to FIG. 2 showing the present invention circuit.

The circuit according to the object of the present invention is as shown in FIG.

The voltage used in the inventive circuit uses the receiver power supply heater supply power, not the B ⁺ voltage. FIG. 2B shows a timing diagram in which the spot killer circuit of the present invention operates when powered off with respect to the circuit of FIG. 2A. In Figure 2b, the horizontal axis represents the time axis and the vertical axis represents the voltage level.

Before the time of t _{1, it} is before the power-off, and the voltage V _N1 of the first node and the voltage V _N2 of the second node are V _N1 > V _{N2, so} that the diode D ₃ is in a energized state and the capacitor C having one side grounded is It maintains a voltage of a predetermined magnitude so as to act as a power supply 8 for the switching section. On the other hand, since the PNP transistor Q ₂ is also in the off state through the resistor R ₁ constituting the first switching unit 2, the grid voltage including a plurality of resistors in the first grid G ₁ . The FTB voltage is supplied at an appropriate level through the supply unit 6.

Looking at the circuit operation when powered off at the time t _1, the heater voltage is also cut off from the power supply by the power off. During operation of the system, the capacitor C also has a predetermined voltage level through the diode D ₃ , and the node N ₁ is switched on because it is grounded with respect to the PNP type switching transistor Q ₁ at power off. As the input is applied, it is switched on, ie shot back. Therefore, since the high level voltage is applied to the base input of the NPN type switching transistor Q ₂ , the voltage of the G ₁ drops to near -200V because it is switched on. This means that it will last up to the discharge time of the capacitor C and the spot killer circuit operates within the time period t ₂ to t ₃ in FIG.

That is, the voltage V _N2 of the node N ₂ starts to gradually fall to the ground level after t ₁ hour, and at time t ₂ , V _N2 > V _N1 and the voltage V _N1 turns on the transistor Q ₁ . This circuit operates because of voltage.

The circuit of the present invention uses a constant heater supply voltage as the circuit operation control voltage level without using the B ⁺ supply voltage that varies depending on the horizontal frequency, so that the system of any mode can be used by adopting the circuit of the present invention.

Claims (2)

In a spot killer circuit of a system using a CRT vacuum tube as a display device, the CRT of which the voltage of the flyback transformer (FBT) receives a divided voltage through a grid voltage supply (6) composed of a resistor. A second switching unit 4 electrically on and off between the first grid G ₁ and the FBT voltage, a first switching unit 2 for turning on and off the second switching unit 4, and a power supply; And a capacitor (C) stored by the heater power from the supply device to supply switching power to the first switching unit (2), wherein the heater power is connected to the capacitor through a diode (D ₃ ), A spot killer circuit for a cathode ray tube, which is connected to a switching unit with an input voltage, and the ON and second switching portions of the first switching element of the heater power-off are turned on to eliminate the spot of the CRT. The spot killer circuit for a CRT of claim 1, wherein the first switching unit is a PNP type switching transistor, and the second switching unit is an NPN type switching transistor.