KR100312488B1 - Circuit for cathod ray tube damage prevention with focus pack of a video display appliance - Google Patents

Abstract

The present invention relates to a damage protection circuit of a CRT according to a defective contact point of a focus pack of a video display device. In the related art, when a contact failure occurs at a lower contact point of an FBT, the focus of a CRT and a screen / terminal of a CRT are significantly higher than a normal voltage. Damage to the CRT occurred. In other words, if the voltage is relatively high, the brightness of the CRT is increased. When the power is turned off, the horizontal / vertical deflection stops, but the brightness of the CRT screen remains for a while, and the electrons are focused at the center of the CRT for a while. The burning of the site occurs, there is a problem that the CRT is damaged.

Accordingly, the present invention, after detecting a contact failure generated at the lower end of the contact point of the focus pack, when the focus / screen voltage rises above the normal voltage to feed back the direct current drive voltage to the horizontal / vertical deflection drive unit horizontal / vertical deflection drive unit By configuring the CRT damage prevention circuit due to the failure of the focus pack contact of the video display device that stops the operation of the FBT due to the oscillation of the FBT, the anode voltage of the FBT is changed to the focus / screen voltage When applied, it prevents the damage of the CRT due to internal discharge, and the resistance value is increased due to the fine peeling of the contact, so that the focus / screen voltage is increased to prevent the burning phenomenon (SPOT) occurring at the center of the CRT. To improve reliability.

Description

CRTCUIT RAY TUBE DAMAGE PREVENTION WITH FOCUS PACK OF A VIDEO DISPLAY APPLIANCE}

According to the present invention, when the contact is separated due to the failure of the focus pack contact of the flyback transformer (FBT) in the image display device, the anode voltage of the FBT is applied to the focus / screen voltage. The present invention relates to a damage protection circuit of a cathode ray tube due to a failure of a focus pack contact of an image display device which is intended to prevent a burning phenomenon occurring in the center of the cathode ray tube due to an increase in resistance due to a peeling phenomenon and an increase in focus / screen voltage.

In particular, after detecting contact failures generated at the bottom of the contact point of the focus pack, when the focus / screen voltage rises above the normal voltage, the horizontal / vertical deflection drive part feeds back the DC drive voltage quickly to the horizontal / vertical deflection drive part. The present invention relates to a damage protection circuit for a cathode ray tube due to a failure of a focus pack contact of an image display device by stopping the operation of the FBT due to the oscillation of the cathode.

As shown in FIG. 1, a conventional image display device circuit drives horizontal and vertical deflection for deflecting horizontal and vertical screens of a CRT (not shown) according to input horizontal and vertical synchronization signals H _S and V _S. A horizontal / vertical deflection part 1 for outputting a signal,

A horizontal driver 2 for supplying a driving current for driving the horizontal output transistor Q1 according to the horizontal deflection driving signal output from the horizontal / vertical deflection unit 1;

A horizontal output transistor Q1 for outputting a horizontal driving pulse (about 1000 V) while operating on / off according to a driving current supplied from the horizontal driving part 2;

According to the driving DC voltage VCC1 and the horizontal driving pulse output from the horizontal output transistor Q1, a high voltage for driving the CRT is induced, and the induced high pressure is appropriately decompressed to each terminal (anode, focus, screen) of the CRT. It consists of a flyback transformer (FBT) (3) to output

The FBT 3 is applied with an ABL signal that automatically limits the high voltage beam current to solve the high voltage regulation.

Here, the high voltage (about 25 KV) for driving the CRT is induced on the secondary side by the ratio of the turns of the primary winding N1 and the secondary winding N2 of the FBT 3,

The induced high voltage is rectified by the diode D1 and the condenser C2 and then output as a high voltage anode DC voltage and a focus and screen voltage divided by the resistors R1 to R5.

Hereinafter, unexplained reference numeral C1 is a capacitor.

Referring to the operation of the conventional video display device circuit configured as described above is as follows.

First, when the horizontal and vertical sync signals (H _S, V _S) inputted to the H / V deflection part (1), the horizontal / vertical deflection unit (1), H _S, the input horizontal and vertical synchronizing signals (V _S Outputs a horizontal and vertical deflection drive signal for deflecting the horizontal and vertical screens of the CRT.

The horizontal driver 2 outputs a driving current for driving the horizontal output transistor Q1 according to the horizontal deflection driving signal output from the horizontal / vertical deflection part 1 to the base of the horizontal output transistor Q1. Bar let

The horizontal output transistor Q1 outputs a horizontal driving pulse (about 1000V) to the primary side N1 of the FBT 3 while driving according to the driving current supplied to the base.

At this time, the FBT (3) to induce a high voltage (about 25KV) for driving the CRT on the secondary side by the ratio of the winding of the primary side winding (N1) and the secondary side winding (N2) in accordance with the horizontal drive pulse applied to the primary side bar,

The induced high voltage is rectified by the diode D1 and the condenser C2, and then output as a high-voltage anode DC voltage and a focus and screen voltage divided by the resistors R1 to R5 to drive the CRT.

Here, an ABL signal is automatically applied to the FBT 3 to limit the beam current of the high voltage, thereby solving the regulation of the high voltage generated in the FBT 3.

However, the FBT of the conventional video display device as described above, the focus and screen voltage of the focus and the screen terminal of the CRT when the contact failure occurs at the bottom contact portion (B portion) of the FBT (3) as shown in FIG. Since it takes much higher, there is a problem that the damage of the CRT occurs.

For example, when the bottom contact portion (B portion) of the focus pack is in poor condition and completely separated, the high voltage of the anode is applied to the focus and the screen to cause the tube discharge of the CRT, resulting in damage of the CRT.

In addition, the temperature of the FBT 3 increases during operation. In particular, when the FBT 3 continues to be in operation and in an inactive state during the winter, a defect may occur that causes fine peeling at the bottom contact portion (B portion) of the focus pack. Can and

As described above, when the defect causing the fine peeling occurs, the resistance value of the bottom contact portion (B portion) of the focus pack is increased than the resistors R1 to R5 for drawing the focus and screen voltages, thereby dividing the focus and the screen. The relatively high voltages affect the reliability of CRTs.

In addition, if the voltage is relatively high as described above, the brightness of the CRT is increased, which causes horizontal and vertical deflection to stop when the power is turned off, but the brightness of the CRT screen remains for a while, so that electrons are focused in the center of the CRT for a while. As a result, a burning phenomenon occurs in the center of the CRT (SPOT phenomenon), and the CRT is damaged.

Here, as shown in Figure 1, when a failure occurs in the upper portion (site A) of the focus pack, the focus and screen voltage transmission is not made or lowered, so it does not affect the reliability of the CRT. .

Therefore, in order to solve the above-mentioned problems, the present invention detects contact defects generated at the lower end of the contact point of the focus pack, and then, when the focus / screen voltage rises above the normal voltage, quickly transfers the DC / DC to the horizontal / vertical deflection driver. When the contact is disconnected due to the failure of the focus pack contact of the FBT, it constitutes a CRT damage prevention circuit according to the failure of the focus pack contact of the video display device that feeds back the driving voltage and stops the operation of the FBT due to the oscillation of the horizontal / vertical deflection driver. As the anode voltage of the FBT is applied to the focus / screen voltage, the objective is to prevent damage to the CRT caused by internal discharge.

In addition, the purpose of the present invention is to improve the reliability of the CRT by preventing the burning phenomenon (SPOT phenomenon) occurring at the center of the CRT as the resistance value is increased due to the fine peeling of the contact and the focus / screen voltage is increased.

1 is a circuit diagram showing the configuration of a conventional video display device.

2 is a damage protection circuit diagram of a CRT according to a defective contact of a focus pack of an image display device applied to the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

2 is a circuit diagram showing a configuration of a damage protection circuit of a CRT according to a failure of a focus pack contact of an image display device applied to the present invention.

As shown in FIG. 2, the horizontal / vertical deflection drive signal for deflecting the horizontal and vertical screens of the CRT (not shown) according to the horizontal and vertical synchronous signals H _S and V _S inputted is outputted. A horizontal driver 2 for supplying a driving current for driving the horizontal output transistor Q1 according to a vertical deflection part 1, a horizontal deflection drive signal output from the horizontal / vertical deflection part 1, and the horizontal Outputs from the horizontal output transistor Q1 outputting a horizontal driving pulse (about 1000 V) while driving on / off according to the driving current supplied from the driver 2, the driving DC voltage VCC1 and the horizontal output transistor Q1. In the video display device comprising an FBT (3) to induce a high voltage for driving the CRT in accordance with the horizontal drive pulse, and to appropriately decompress the induced high pressure to output to each terminal (anode, focus, screen) of the CRT,

It is connected to the bottom contact point (B part) of the focus pack of the FBT (3), and after detecting a contact failure generated at the bottom contact part (B part), the DC driving voltage (VCC2) is applied to the horizontal / vertical deflection driving part (1). And a focus pack contact failure detection unit 10 for controlling the operation of the FBT 3 according to the oscillation of the horizontal / vertical deflection driving unit 1 by feeding back).

The focus pack contact failure detection unit 10 may include a diode D2 and a capacitor C3 rectifying high voltage noise at a contact point (site B) of the focus pack;

Resistors (R6) (R7) for reducing the high voltage at which the noise component is rectified by the diode (D2) and the capacitor (C3) to a voltage Va of an appropriate level;

The DC driving voltage VCC3 is reduced through the resistors R8 and R9 to input a reference voltage Vb of a predetermined level to the non-inverting terminal +, but the voltage is reversed through the resistors R6 and R7. Inverting amplifier 11 which compares the voltage Va input to the terminal (-) with the reference voltage Vb input to the non-inverting terminal (+) and outputs a voltage Vc of a predetermined level according to the comparison result Wow,

On / off driving is performed according to the voltage Vc of the constant level output from the inverting amplifier 11 to feed back the DC driving voltage VCC2 to the horizontal / vertical deflection portion 1 so that the horizontal / vertical deflection portion 1 It further comprises a switching element (Q2) for controlling the drive of the FBT (3) in accordance with the oscillation of.

Hereinafter, unexplained reference numerals R10 to R12 are resistors.

Referring to FIG. 2, the operation of the CRT damage prevention circuit according to the defective contact of the focus pack of the image display device configured as described above is as follows.

First, when the horizontal and vertical sync signals (H _S, V _S) inputted to the H / V deflection part (1), the horizontal / vertical deflection unit (1), H _S, the input horizontal and vertical synchronizing signals (V _S Outputs a horizontal and vertical deflection drive signal for deflecting the horizontal and vertical screens of the CRT.

In addition, the horizontal driver 2 outputs a driving current for driving the horizontal output transistor Q1 to the base of the horizontal output transistor Q1 in response to the horizontal drive signal output from the horizontal / vertical deflection part 1. Bar let

The horizontal output transistor Q1 outputs a horizontal driving pulse (about 1000V) to the primary side N1 of the FBT 3 while driving according to the driving current supplied to the base.

Thereafter, the FBT 3 induces a high voltage (about 25 KV) for driving the CRT to the secondary side by the ratio of the turns of the primary side winding N1 and the secondary side winding N2 according to the horizontal driving pulse applied to the primary side. bar,

The induced high voltage is rectified by the diode D1 and the condenser C2, and then output as a high-voltage anode DC voltage and a focus and screen voltage divided by the resistors R1 to R5 to drive the CRT.

At this time, if a contact failure occurs at the bottom contact point (site B) of the focus pack of the FBT (3), the focus pack contact failure detection unit (10) connected to the bottom contact point (site B) of the focus pack of the FBT (3) After detecting contact defects generated at the lower contact portion (B portion), the FBT (feedback) of the horizontal / vertical deflection driver 1 is fed back by feeding the DC driving voltage VCC2 to the horizontal / vertical deflection driver 1. The operation of 3) is controlled.

That is, after the diode D2 and the capacitor C3 included in the focus pack contact failure detection unit 10 rectify the high voltage noise generated at the contact point (site B) of the focus pack, the resistor R6 (R7). Send to

In the resistors R6 and R7, the high voltage at which the noise component is rectified is reduced to a voltage Va at an appropriate level and then output to the inverting terminal of the inverting amplifier 11.

At this time, the non-inverting terminal (+) of the inverting amplifier 11 is a reference voltage (Vb) of a predetermined level by decompressing the DC driving voltage (VCC3) through the resistor (R8) (R9),

The inverting amplifier 11 compares the voltage Va decompressed through the resistors R6 and R7 to the inverting terminal (-) with a reference voltage Vb to be input to the non-inverting terminal (+). According to the comparison result, a high or low level voltage Vc is applied to the base of the switching element Q2 through the resistor R10.

In other words, when a contact failure does not occur in the focus pack lower contact portion (site B) of the FBT 3 and the circuit operates normally,

The voltage Va decompressed through the resistors R6 and R7 and input to the inverting terminal (-) of the inverting amplifier 11 is set higher than the reference voltage Vb input to the non-inverting terminal (+). ,

The inverting amplifier 11 outputs a low level voltage Vc to the base of the switching element Q2.

At this time, the switching element Q2 is turned on in accordance with the low level voltage Vc applied to the base, and the emitter output of the switching element Q2 is in a low state. Since the DC driving voltage VCC2 through the resistors R11 and R12 is not applied to the unit 1, the circuit operates normally.

On the other hand, when a contact failure occurs in the focus pack lower contact portion (site B) of the FBT (3),

As the resistance value of the FBT 3 rises due to the fine peeling phenomenon, the resistance value is positioned above the resistances R6 and R7 of the focus pack contact failure detection unit 10, and the divided resistance value is lowered.

Therefore, the voltage Va decompressed through the resistors R6 and R7 and input to the inverting terminal (-) of the inverting amplifier 11 is set lower than the reference voltage Vb input to the non-inverting terminal (+). Bar,

The inverting amplifier 11 outputs a high level voltage Vc to the base of the switching element Q2.

At this time, the switching element (Q2) is turned off the switching drive according to the high level voltage (Vc) applied to the base,

As the output of the emitter is switched to the high state according to the off switching driving of the switching element Q2, the DC driving voltage VCC2 through the resistors R11 and R12 is fed back to the horizontal / vertical deflection unit 1.

Therefore, the oscillation of the horizontal / vertical deflection portion 1 is stopped and the drive of the FBT 3 is stopped in accordance with the DC driving voltage VCC2 fed back to the DC driving voltage VCC2. It will prevent the CRT damage.

As described above, the present invention detects contact defects generated at the lower end of the contact point of the focus pack, and then quickly feeds the DC drive voltage back to the horizontal / vertical deflection driver when the focus / screen voltage rises above the normal voltage. By configuring the CRT damage prevention circuit due to the failure of the focus pack contact of the video display device that stops the operation of the FBT due to the oscillation of the vertical deflection driver, the anode voltage of the FBT is focused when the contact is disconnected due to the failure of the focus pack contact of the FBT. It is applied to the screen voltage to prevent damage of the CRT caused by internal discharge, and the resistance value is increased due to the fine peeling of the contact, so as to prevent the burning phenomenon (SPOT phenomenon) generated at the center of the CRT as the focus / screen voltage is increased. As a result, there is an effect of improving the reliability of the CRT.

Claims (2)

FBT outputs to each terminal (anode, focus, screen) of the CRT by inducing high voltage to drive CRT according to horizontal / vertical deflection, horizontal driver, horizontal output transistor and horizontal driving pulse In the video display device comprising: The FBT is connected to the bottom contact point of the focus pack of the FBT, and after detecting a contact failure occurring at the bottom contact point, the DC drive voltage is fed back to the horizontal / vertical deflection driver to operate the FBT according to the oscillation of the horizontal / vertical deflection driver. CRT damage prevention circuit according to the focus pack contact failure of the image display device, characterized in that it further comprises a focus pack contact failure detection unit for controlling the. The apparatus of claim 1, wherein the focus pack contact failure detection unit comprises: a diode and a capacitor rectifying high voltage noise at a contact point of the focus pack; A resistor for reducing the high voltage at which the noise component is rectified by the diode and the capacitor to a voltage having an appropriate level; The DC driving voltage is reduced through a resistor to input a reference voltage of a predetermined level into the non-inverting terminal, and the voltage decompressed through the resistor is input to the inverting terminal and compared with the reference voltage input to the non-inverting terminal. An inverting amplifier that outputs a constant level of voltage It further comprises a switching device for controlling the driving of the FBT according to the oscillation of the horizontal / vertical deflection part by feeding the DC driving voltage to the horizontal / vertical deflection part by driving on / off according to the voltage of a predetermined level output from the inverting amplifier The damage protection circuit of the CRT tube according to the defective contact of the focus pack of the video display device.