KR100467247B1 - Device for protecting a prt of a projection display - Google Patents

Abstract

The present invention relates to an apparatus for preventing damage to the PRT fluorescent surface of a projection image display device. PRT damage prevention device of the projection type image display device according to the present invention, a high-voltage circuit for generating a high voltage to be applied to the anode of the PRT in accordance with a deflection IC, a vertical / horizontal deflection circuit, a horizontal drive signal output from the deflection IC, An X-ray protection circuit for detecting X-rays radiated from the circuit and outputting an X-ray detection signal and controlling the increase of the high voltage above a specified value, and a high voltage switching circuit, wherein the high voltage switching circuit is provided from the horizontal deflection circuit. The operation of the high voltage circuit is controlled in accordance with a supplied driving voltage, an X-ray sensing signal output from the X-ray protection circuit, or a horizontal driving signal of a deflection IC.

According to the present invention, in the projection type image display device, the high voltage circuit is not operated when the deflection circuit is not operated, thereby preventing the occurrence of focus on the fluorescent surface by applying a high voltage to the PRT without deflection. do. As a result, it is possible to prevent the fluorescent surface of the PRT from being damaged due to focus formation.

Description

Prevent damage to the PRT of projection-type image display equipment {DEVICE FOR PROTECTING A PRT OF A PROJECTION DISPLAY}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for preventing PRT damage of a projection television, which is a projection image display device, and more particularly, to an apparatus for preventing the fluorescent surface of a PRT from being damaged due to an abnormally high pressure supplied to a projection television.

Projection display is a term that is distinguished from a direct view image display device that can directly view an image, such as a CRT display for a notebook computer or a CRT image display device for a TV or a monitor. It is used to realize a large area image display of more than 40 inches and hundreds of inches. Such a projection image display device controls the light beam emitted from the light source using two-dimensional image information to project on a screen arranged in a space, or to enlarge and project a high brightness image or data screen onto a screen using an optical device. By doing so, you get a big screen.

The above-described projection type image display apparatus includes a CRT projection method, a laser projection method, a light valve projection method, and the like, of which the CRT projection method is most used.

The CRT projection method is a method of optically projecting the image formed on the fluorescent surface of the CRT on the screen. In the above-described CRT projection method, three primary colors are synthesized on a screen by using three red, green, and blue CRT tubes instead of one color CRT to improve the luminance of the fluorescent screen. In this case, the CRT used is called a PRT, and its size is generally about 7 inches small and does not use a shadow mask.

1 is a block diagram showing an internal circuit for operating a PRT of a conventional projection image display device. Hereinafter, a configuration of a PRT of a conventional projection image display device will be described with reference to FIG. 1.

As shown in FIG. 1, a projection image display apparatus generally includes a deflection IC 100, a vertical / horizontal deflection circuit, a vertical / horizontal deflection coils 112 and 116, a high voltage circuit, an X-ray protection circuit 140, and a PRT. Is made of.

First, the deflection IC 100 generates and outputs vertical / horizontal driving signals V-Drive and H-Drive according to vertical / horizontal synchronization signals V-Sync and H-Sync input from the outside. The vertical drive signal V-Drive and the horizontal drive signal H-Drive output from the deflection IC are output to the vertical deflection circuit and the horizontal deflection circuit, respectively.

The vertical deflection circuit is a vertical deflection output circuit 110. The vertical deflection circuit amplifies the vertical drive signal to generate a sawtooth current, and applies it to the vertical deflection coil 112.

On the other hand, the horizontal deflection circuit is composed of a horizontal deflection drive circuit 120, a horizontal deflection output circuit 122, a dummy FBT (124), the horizontal deflection drive circuit 120 is amplified horizontal drive signal sufficiently to the horizontal Output to the deflection output circuit 122. The horizontal deflection output circuit 122 generates a sawtooth wave current and applies it to the horizontal deflection coil 126 via the dummy FBT 124.

In addition, the high voltage circuit is composed of a high voltage driving circuit 130, a high voltage output circuit 132 and a flyback transformer (FBT: 134), the high pressure generated in the FBT according to the horizontal drive signal output from the deflection IC anode of the PRT Supply to terminal 136.

On the other hand, the X-ray protection circuit 140 detects X-rays radiated from the FBT when an anode voltage higher than the prescribed value is output from the FBT, and outputs the X-ray detection signal to the deflection IC, whereby the deflection IC does not output the horizontal drive signal. Do not As a result, neither the horizontal deflection circuit nor the high voltage circuit operating in accordance with the horizontal drive signal is operated, and the high voltage generation is temporarily stopped.

In the conventional projection type image display device having the above-described configuration, the CRT screen is damaged due to the presence of a high voltage residual voltage in a state in which the deflection circuit is not operated when the power is turned off. In addition, if a high-voltage circuit is operated in a state in which the deflection circuit does not operate normally, such as when the deflection circuit is bad, and a high pressure is applied to the anode of the PRT, high pressure is applied without deflection, thereby forming a focus on a specific position of the PRT. There is a problem that the fluorescent surface of the point is damaged. In addition, since the spot on the fluorescent surface is magnified by about 10 times on the screen, small damage of the fluorescent surface is also enlarged and displayed on the screen.

On the other hand, since the spot on the fluorescent surface is enlarged on the screen, it is necessary to make the spot size and shape extremely small and clear. As described above, the CRT used in the projection type image display device increases the anode voltage in order to obtain sufficient brightness and good spot size, and recently, it has become common to operate at a high voltage of about 32 kV. Therefore, the CRT used in the above-described projection image display device consumes a lot of current, and high voltage or beam current is higher than that of a general color television. As a result, there is a problem that the fluorescent surface or glass of the projection CRT is damaged if high pressure is continuously applied in a state where the small projection CRT is not deflected.

That is, since the PRT used for the projection image display device is smaller than the CRT of the general direct view image display device and does not use a shadow mask, its fluorescent surface is more easily damaged than the CRT of the direct view image display device. In addition, when a specific position of the fluorescent surface is damaged, the display is enlarged by about 7 to 10 times on the screen, and thus the image quality is very deteriorated.

In order to overcome this problem, in the present invention, as an alternative to the prior art, the PRT damage preventing device of the projection type image display apparatus which controls on / off of the high voltage driving circuit to operate the high voltage circuit while the deflection circuit is driven. Suggest.

SUMMARY OF THE INVENTION In order to solve the above problems, an object of the present invention is to provide a PRT damage preventing device for turning off a high-voltage driving circuit first and turning off a deflection circuit after a predetermined time when the power is turned off.

In addition, another object of the present invention is to provide a PRT damage preventing device for operating a high-voltage driving circuit after operating the deflection circuit first, when power is applied to the projection image display device.

Another object of the present invention is to provide a PRT damage preventing device for preventing the high voltage driving circuit from operating when the deflection circuit does not operate normally.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing an overall configuration of a projection television according to the prior art.

Fig. 2 is a block diagram showing an overall configuration of a projection television having a PRT damage preventing device according to the present invention.

3 is a circuit diagram showing an internal circuit for the PRT damage prevention device according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100, 200: deflection IC

110, 210: vertical deflection output circuit

112, 212: vertical deflection coil

120, 220: horizontal deflection drive circuit

122, 222: horizontal deflection output circuit

124, 224 Dummy FBT

126, 226: horizontal deflection coil

130, 230: high pressure drive circuit

132, 232: high voltage output circuit

134, 234: FBT

136, 236: PRT anode

140, 240: X-ray protection circuit

250: high voltage switching circuit

PRT damage prevention device of the projection type image display device according to the present invention for achieving the above object is a deflection IC for outputting a horizontal / vertical drive signal according to the horizontal / vertical synchronization signal, the vertical drive output from the deflection IC A vertical deflection circuit for outputting a vertical deflection voltage according to a signal to a vertical deflection coil; a horizontal deflection circuit for outputting a horizontal deflection voltage to a horizontal deflection coil according to a horizontal drive signal output from the deflection IC; and a horizontal drive output from the deflection IC. A high voltage circuit for generating a high pressure to be applied to the anode of the PRT according to the signal, an X-ray protection circuit for detecting an X-ray radiated from the high voltage circuit to output an X-ray detection signal, and controlling the increase of the high pressure above a specified value, And the high voltage according to a driving voltage supplied from the horizontal deflection circuit, an X-ray detection signal output from the X-ray protection circuit, or a horizontal driving signal. It is provided with a high-voltage switching circuit for controlling the operation of the circuit.

At this time, the high voltage switching circuit has four input terminals, the first input terminal is a power on / off signal is input, the second input terminal is an X-ray detection signal output from the X-ray protection circuit is input, The third input terminal receives an ABN signal indicating abnormal power input, and the fourth input terminal receives a horizontal drive signal output from the deflection IC. The input terminal receives a power off signal, an X-ray detection signal, or an ABN signal. When is input or the normal horizontal drive signal is not input, it is preferable that the high voltage switching circuit outputs an off signal to the high voltage circuit.

According to the present invention, in the projection type image display device, the high voltage circuit is not operated when the deflection circuit is not operated, thereby preventing the occurrence of focus on the fluorescent surface by applying a high voltage to the PRT without deflection. do. As a result, it is possible to prevent the fluorescent surface of the PRT from being damaged due to focus formation.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. First, in adding reference numerals to the components of each drawing, it should be noted that the same components are denoted by the same reference numerals as much as possible, even if displayed on different drawings.

2 is a block diagram showing the configuration of a projection image display device having a damage prevention device according to the present invention. Hereinafter, the configuration and operation of the projection image display device according to the present invention will be described in detail with reference to FIG. 2. However, since the general configuration and operation of the deflection circuit and the high voltage circuit of the image display device are not only described in the related art but also widely known in the art, detailed descriptions thereof are omitted in the present invention.

Referring to FIG. 2, the projection image display device according to the present invention includes a deflection IC, a vertical / horizontal deflection circuit, a high voltage circuit, an X-ray protection circuit, and a high voltage switching circuit.

Since the vertical / horizontal deflection circuit of the present invention is the same as that described in the prior art, the description thereof is omitted.

Meanwhile, the high voltage circuit includes a high voltage driving circuit 230, a high voltage output circuit 232, and an FBT 234. The high voltage output from the secondary side of the FBT is applied to the anode terminal 236 of the PRT. In this case, in the high voltage driving circuit, the B + voltage f output from the dummy FBT 224 of the horizontal deflection circuit is used as a driving voltage. As a result, when the horizontal deflection circuit does not operate normally, the high voltage driving circuit 130 also does not operate.

In addition, the X-ray protection circuit detects X-rays radiated when the FBT generates a high voltage of a predetermined value or more, and transmits an X-ray detection signal to an input terminal of the high voltage switching circuit 250 described later. In the conventional X-ray protection circuit, the X-ray detection signal is transmitted to the deflection IC 200 so that the horizontal driving signal is not generated so that neither the horizontal deflection circuit nor the high voltage circuit is operated. Is applied to the high voltage switching circuit so that only the high voltage circuit is not operated. As a result, when a high voltage exceeding a prescribed value is generated from the FBT, only the high voltage circuit is temporarily not operated, thereby preventing the fluorescent surface of the PRT from being damaged.

On the other hand, in addition to the deflection IC, the high voltage switching circuit for controlling the operation of the high voltage circuit has a power on / off signal (a), an X-ray detection signal (b) from the X-ray protection circuit, and an ABN signal indicating that abnormal power is applied. (c) and 8 Volt of horizontal drive signal (d) applied to the deflection IC are respectively input to the input terminal, and the dummy voltage FBT of the horizontal deflection circuit is the B + voltage, which is the driving voltage (e) for driving the high voltage switching circuit. It is input from the output terminal of.

On the other hand, the output terminal g of the high voltage switching circuit is connected to one end of the high voltage circuit, in particular, preferably connected to one end of the high voltage driving circuit 230. As a result, the operation of the high voltage driving circuit 230 is controlled according to the output signal from the high voltage switching circuit 250.

Hereinafter, the operation of the high voltage switching circuit to which the input and output signals as described above are input and output respectively will be described schematically. First, when an ON or OFF signal for power is input, the high voltage switching circuit outputs an on or off signal for turning on or off the high voltage driving circuit to the high voltage driving circuit. At this time, when the OFF signal is applied to the power supply, the power is turned off and at the same time the high voltage switching circuit is turned off. At this time, the high voltage driving circuit is immediately turned off, but the deflection circuit is constant until the power charged in the capacitor of each power circuit is discharged. It is driven for a time and then turned off.

In addition, when the X-ray detection signal is input to the high voltage switching circuit through the X-ray protection circuit, the high voltage switching circuit outputs an off signal for turning off the high voltage driving circuit to the high voltage driving circuit.

In addition, when the ABN signal is input to the high voltage switching circuit, the high voltage switching circuit outputs an off signal for turning off the high voltage driving circuit to the high voltage driving circuit. The ABN signal is an abbreviation of Abnormal signal and indicates that an abnormal power supply is applied, and is obtained when the IC power supply and the H / W circuit power supply are shorted or opened.

In addition, when the 8Vt horizontal driving signal is not normally applied or decreased by the high voltage switching circuit, the high voltage switching circuit outputs an off signal for turning off the high voltage driving circuit to the high voltage driving circuit. In this case, the 8 Volt signal is a horizontal drive signal output from the deflection IC, and the projection type image display device according to the present invention does not operate the high voltage drive circuit when the horizontal drive signal is not normally output.

Hereinafter, the configuration of the high voltage switching circuit used in the projection image display device according to the present invention will be described in detail with reference to FIG. 3.

3 is a circuit diagram illustrating an embodiment in which the high voltage switching circuit described above is implemented.

As shown in FIG. 3, the power on / off signal a of the input terminals of the high voltage switching circuit 250 according to the present invention is connected to the cathode terminal of the diode D1 and the anode terminal of the diode D1. Is divided by predetermined resistors R4 and R5 and then applied to the base of transistor Q1. The base terminal of the transistor Q1 is also connected to one end of the capacitor C1 of a predetermined capacitance, and the other end of the capacitor C1 is grounded.

The emitter terminal of the transistor Q1 to which the power on / off signal is input to the base terminal is grounded, and the collector terminal is applied with the B + voltage e output from the dummy FBT via the resistor R1. In addition, the collector terminal of the transistor Q1 is connected to the base terminal of the transistor Q2 via the resistor R2, the emitter terminal of the transistor Q2 is grounded, and the collector is connected via the resistor R3. Thus, the B + voltage e output from the dummy FBT is applied.

The collector terminal of the transistor Q2 is connected to the base terminal of the transistor Q3 via a resistor R7. In addition, the base terminal of the transistor Q3 is connected to one end of the capacitor C4, and the other end of the capacitor C4 is grounded. On the other hand, the emitter terminal of the transistor Q3 is grounded, and the collector terminal is connected to the drain terminal of the transistor Q4 of the high voltage driving circuit.

On the other hand, the X-ray sensing signal b of the high voltage switching circuit is connected to the base terminal of the transistor Q2 via the resistor R6. Further, the X-ray detection signal b is input to the base terminal of the transistor Q5, the base terminal is also connected to one end of the capacitor C5, and the other end of the capacitor C5 is grounded. Meanwhile, the emitter terminal of the transistor Q5 is grounded and the collector terminal is connected to the cathode terminal of the zener diode ZD2.

On the other hand, the ABN signal c indicating that an abnormal power supply of the high voltage switching circuit is applied is connected to the cathode terminal of the zener diode ZD2, and the anode terminal of the zener diode ZD2 is connected to the resistor R9 and the resistor R4. It is connected to the base terminal of the transistor Q1 via.

On the other hand, the 8 Volt signal d of the high voltage switching circuit is connected to the cathode terminal of the zener diode ZD1, and the anode terminal of the zener diode ZD1 is connected to the base terminal of the transistor Q1 via the resistor R4. Connected with.

As shown in FIG. 3, the B + voltage (e), which is a driving voltage for the high voltage switching circuit according to the present invention, is a voltage output from the dummy FBT 224 of the horizontal deflection circuit. As a result, the high voltage switching circuit can be operated only when the horizontal deflection circuit is normally operated.

In addition, since the B + voltage f, which is the driving voltage applied to the high voltage driving circuit 230, is also the voltage output from the dummy FBT 224 of the horizontal deflection circuit, the high voltage driving circuit 230 also has a horizontal deflection circuit. It can only be operated when it is operated.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims below, but also by those equivalent to the claims.

According to the present invention, when the power of the projection image display device is turned off, the high-voltage circuit is not operated first, and then the deflection circuit is turned off after a predetermined time, thereby damaging the PRT by the high-voltage residual voltage generated when the power is turned off. Can be prevented. In addition, the present invention prevents the operation of the high voltage circuit as well as the deflection circuit when the horizontal drive signal output from the deflection IC is reduced or when an abnormal horizontal drive signal is generated or abnormal power is applied from the outside. Further, even when the X-ray detection signal is input, the high voltage can be reduced by temporarily not operating the high voltage circuit regardless of the deflection circuit.

Therefore, the deflection circuit is turned off after the high voltage circuit is completely turned off, or the high voltage circuit is operated after the deflection circuit is operated, thereby preventing the high voltage from being applied to the anode terminal of the PRT while the deflection circuit is not operated. As a result, focal points are prevented from being formed on the fluorescent surface of the PRT so that the fluorescent surface is not damaged.

Claims (3)

A deflection IC for outputting a horizontal / vertical drive signal according to the horizontal / vertical synchronization signal; A vertical deflection circuit for outputting a vertical deflection voltage to a vertical deflection coil in accordance with the vertical drive signal output from the deflection IC; A horizontal deflection circuit outputting a horizontal deflection voltage to a horizontal deflection coil in accordance with a horizontal drive signal output from the deflection IC; A high voltage circuit for generating a high voltage to be applied to an anode of the PRT according to a horizontal drive signal output from the deflection IC; An X-ray protection circuit that detects X-rays radiated from the high voltage circuit and outputs an X-ray detection signal, and controls that the high pressure is increased above a prescribed value; And According to the drive voltage supplied from the horizontal deflection circuit, the X-ray detection signal output from the X-ray protection circuit, or the horizontal drive signal, the high voltage drive circuit is first turned off when the power is turned off, and then the deflection circuit is turned off and the deflection is turned on. A high voltage switching circuit for controlling the operation of the high voltage circuit to turn on the circuit first and then to turn on the high voltage driving circuit PRT damage prevention device of a projection image display device characterized in that it comprises a. The method of claim 1, wherein the high-voltage switching circuit has four input terminals, the first input terminal is a power on / off signal is input, the second input terminal is an X-ray detection signal output from the X-ray protection circuit Input, the third input terminal is input ABN signal indicating that the abnormal power is input, the fourth input terminal is input the horizontal drive signal output from the deflection IC, The high voltage switching circuit outputs an off signal to the high voltage circuit when a power off signal, an X-ray detection signal, or an ABN signal is input to the input terminal, or a normal horizontal drive signal is not input. PRT damage prevention device of indicator. 3. The voltage reducing circuit of claim 2, wherein the high voltage switching circuit includes first, second, and third transistors, and the collector terminals of the first and second transistors have a B + voltage output from the deflection circuit via a predetermined resistance. And a collector terminal of the first transistor is connected to the base terminal of the second transistor via a predetermined resistance, and a collector terminal of the second transistor is connected to the base terminal of the third transistor via a predetermined resistance. , The first, third and fourth input terminals of the high voltage switching circuit are connected to the base terminal of the first transistor via a predetermined diode and a resistor, and the second input terminal is connected to the base of the second transistor through a resistor. Connected to the collector terminal, And an output terminal of the high voltage switching circuit is a collector terminal of a third transistor.