JPH064032A - Spot preventing circuit for crt display device - Google Patents

Abstract

PURPOSE:To obtain the spot preventing circuit which can securely prevent a spot from being generated as to the spot preventing circuit of the CRT display device. CONSTITUTION:The CRT display device equipped with a contrast adjusting circuit 20 which adjusts the contrast by adjusting the amplitude of an image signal applied to a cathode K and a brightness adjusting means 30 which adjusts the brightness by adjusting a voltage applied to a control grid G1 is equipped with a display control signal circuit 10 which outputs a display control signal Sd indicating whether or not the power source is ON, a switch means 40 which cancels the amplitude adjusting function of the contrast adjusting circuit 20 according to the display control signal Sd indicating that the power source is OFF, and a switch means 50 which cancels the voltage adjusting function applied to the brightness adjusting circuit 20 according to the display control signal Sd indicating that the power source is OFF. A transistor Tr40 and a transistor Tr50 are usable instead of the switch means 40 and switch means 50.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a CRT display device, and more particularly to a spot prevention circuit for a CRT display device.

[0002]

2. Description of the Related Art The brightness of a CRT display device is determined by the voltage of the control grid, the cathode voltage and the screen voltage. Here, the voltage of the control grid is normally minus several tens of volts, and the higher the voltage, the brighter the screen. Further, this voltage can be adjusted by the user by changing the resistance value of the variable resistor of the brightness adjusting circuit.

Further, the upper limit of the cathode voltage is plus several tens of volts, and the image signal changes with reference to the upper limit potential, the amplitude of the image signal is large, and the lower the cathode voltage is, the brighter the screen becomes. The adjustment of the amplitude of the image signal can be adjusted by the user by changing the resistance value of the variable resistor of the contrast adjusting circuit.

When the power supply of the CRT display device (the power supply of the main body circuit when the power supply is common to the main body circuit) is turned from ON to OFF, no voltage is applied to the horizontal and vertical deflection coils, so that the electron beam is projected on the screen. Since the voltage of the control grid rises and the cathode voltage falls and tries to approach zero respectively while it is stationary at the center, a spot remains for several seconds at the position hit by the electron beam at the center of the screen.

Since this spot accelerates the deterioration of the CRT display device, in order to erase the spot, conventionally, a capacitor for delaying the rise of the voltage of the control grid or the fall of the cathode is inserted,
I was waiting for the voltage of other parts to drop or rise to zero.

[0006]

According to the above-mentioned conventional structure, although there is a temporary effect that the spot is not generated,
Due to variations in the CRT and its drive circuit, spots are generated or not generated, or the spots are generated for a long time or a short time.

The present invention has been proposed in view of the above conventional circumstances, and an object of the present invention is to provide a spot prevention circuit capable of surely preventing the generation of spots.

[0008]

The present invention employs the following means in order to achieve the above object. That is, as shown in FIG. 1, the contrast is adjusted by adjusting the amplitude of the image signal applied to the cathode K, and the brightness is adjusted by adjusting the voltage applied to the control grid G1. In the CRT display device including the brightness adjusting circuit 30, the display control signal circuit 10 that outputs the display control signal Sd indicating whether or not the power supply is in the ON state.
A switch means 40 for killing the amplitude adjusting function of the contrast adjusting circuit 20 based on the display control signal Sd indicating power OFF, and a brightness adjusting circuit 30 based on the display control signal Sd indicating power OFF. It is provided with a switch means 50 for killing the voltage adjusting function applied to.

Switch means 40 and switch means 50
As the transistor, a transistor Tr ₄₀ and a transistor Tr ₅₀ can be used.

[0010]

In the above structure, when the power is on, the display control signal Sd output from the display control signal circuit 10 becomes "L" indicating the power is on, and the switch means 40 is turned off. As a result, the contrast adjusting circuit 20 can adjust the contrast by a normal function, that is, by adjusting the resistance value of the variable resistor R ₂₀ from the outside.

Similarly to the above, when the display control signal Sd is "L" (power ON), the switch means 50 is O.
N. As a result, a current flows through the variable resistor R ₃₀ for voltage adjustment applied to the brightness adjusting circuit 30, and the variable resistor R ₃₀ outputs a voltage according to the position of the variable terminal to the control grid G 1 for brightness adjustment. Adjustments will be made normally.

Next, when the power is off, the display control signal Sd becomes "H" indicating off, and the switch means 40 is turned on. As a result, the image signal Sv input to the contrast adjusting circuit 20 is grounded without passing through the variable resistor R ₂₀ for contrast adjustment, and the contrast adjusting function is lost. In this state, plus several tens of volts of the above reference value is applied to the cathode, and the CRT screen is in a non-display state.

On the other hand, when the display control signal Sd is "H", the switch means 50 is turned off. by this,
No current flows in the brightness adjustment circuit 30 a variable resistor R ₃₀ for voltage adjustment to be applied to, the control grid G1 -100 V is applied as it acts to spot position becomes dark.

The display control signal Sd remains "H", the switch means 40 is turned on, and the switch means 5 is turned on.
The time to turn off 0 is for a while after the power is turned off. After that, the cathode potential drops and the control grid potential rises to form a spot, but the potentials of other parts also become zero. Actually, no spot is formed.

[0015]

2 is a circuit diagram showing an embodiment of the present invention, and FIG. 3 is a waveform diagram thereof. The display control signal circuit 10 is provided across the main body circuit 100 or the main body circuit 100 and the CRT display device 200. The display control signal Sd becomes "L" level when the main body circuit 100 is powered on, and becomes "H" level when the main circuit 100 is powered off.

That is, the display control signal circuit 10 comprises a transistor Tr ₁ which is turned on when the power of the main body circuit 100 is turned on, and a transistor Tr ₂ which is turned on when the transistor Tr ₁ is turned on. The output of the collector of Tr ₂ is the display control signal Sd.
Is derived as

The line for deriving the display control signal Sd is
Resistance R on the display device 200 side ₁Grounded through
Resistance R₂Connected to a + 24V DC power supply via
On the other hand, the transistor Tr as the switch means 40₄₀of
Connected to the base. This transistor Tr₄₀Collect
Is input to the contrast adjustment circuit 20, and
Tta is grounded. This allows the contrast
Variable resistor R for adjusting the contrast of the adjusting circuit 20₂₀To
Langista Tr₄₀Are connected in parallel.

The display control signal Sd is also input to the base of the transistor Tr ₅₀ as the switch means 50 via the _two diodes D ₁ and D ₂ and the resistance R ₃
Is connected to the collector of the transistor Tr ₅₀ via. The collector of the transistor Tr ₅₀ is connected to the −100V power source via the variable resistor R ₃₀ and the resistor R ₆ .

With the above structure, when the power of the main body circuit 100 is ON, the display control signal Sd becomes zero "L" because the transistor Tr ₂ is conductive as described above. This turns off the transistor Tr ₄₀ ,
The image signal Sv is applied to the variable terminal of the variable resistor R ₂₀ forming the contrast adjustment circuit 20, and the contrast adjustment circuit 20 operates normally.

Further, the display control signal line and -100
Diodes D ₁ and D applied between the power source of V and
₂ shows the transistor Tr _{50 as} shown in FIG.
The base potential of is lower than the emitter potential (0V),
When the main body circuit 100 is ON (the display control signal Sd is 0V), the transistor Tr ₅₀ is also ON.

Therefore, a current flows through the variable resistor R ₃₀ ,
Will be the voltage appearing at the variable terminal of the variable resistor R ₃₀ is applied to the control grid G1, brightness adjustment circuit 30 operates normally.

On the other hand, the main circuit 100 is turned off.
When the transistor Tr₂Is turned off, but the table
The control signal line indicates the resistance R as described above.₁Grounded in
Resistance R₂It is connected to + 24V at
+ 24V is turned off as shown in Fig. 3 (c)
Since it does not become 0V immediately after the
₄₀The base of is temporarily higher than the emic potential (ground potential)
And the transistor Tr₄₀Turns on.

As a result, the contrast adjusting circuit 20
The video signal Sv input to is directly grounded by the transistor Tr ₄₀ , the cathode potential becomes the maximum potential (plus several tens of volts), and the CRT screen is in a non-display state.

Further, when the power is turned off, the potential of the display control signal line temporarily rises due to the resistors R ₁ and R ₂ as described above, so that the transistor Tr as shown in FIG. transistor Tr ₅₀ base potential of ₅₀ becomes higher than the emitter potential turned OFF. As a result, no current flows through the variable resistor R ₃₀ ,
As shown in FIG. 3E, the potential applied to the control grid G1 temporarily becomes close to −100V. As a result, the brightness at the center of the CRT is remarkably reduced and no spot appears.

The 24V DC power supply (see FIG. 3A) or the -100V DC power supply gradually approaches the 0 level after the power supply is turned off, so that the spot control action disappears. Since the electric potential of the site is also 0V, it does not matter even if there is no spot control action.

[0026]

As described above, according to the present invention, when the power supply is turned off, the amplitude adjusting function of the image signal of the contrast adjusting circuit and the brightness adjusting function of the brightness adjusting circuit are canceled so that the cathode potential becomes high and the control is performed. Since the grid potential is kept low, there is no spot formation and it is a CRT.
Has the effect of prolonging the service life.

[Brief description of drawings]

FIG. 1 is a principle diagram of the present invention.

FIG. 2 is a circuit diagram of an embodiment of the present invention.

FIG. 3 is a waveform diagram of FIG.

[Explanation of symbols]

 10 display control signal circuit 20 contrast adjustment circuit 30 brightness adjustment circuit 40 switch means 50 switch means G1 control grid K cathode Sd display control signal

Claims (3)

[Claims] 1. A contrast adjusting circuit (20) for adjusting the contrast by adjusting the amplitude of an image signal applied to the cathode (K) and a brightness by adjusting the voltage applied to the control grid (G1). In a CRT display device equipped with a brightness adjustment circuit (30) for adjusting the display, a display control signal (Sd) indicating whether or not the power is on.
Based on the display control signal circuit (10) that outputs the
A switch means (40) for killing the amplitude adjusting function of the contrast adjusting circuit (20) and a voltage adjusting function applied to the brightness adjusting circuit (30) based on the display control signal (Sd) indicating that the power is turned off are provided. CRT characterized by having switch means (50) for killing
Spot prevention circuit for display device. 2. The display control signal (S
The spot prevention circuit of the CRT display device according to claim 1, wherein the transistor Tr ₄₀ is controlled by d). 3. The display control signal (S
The spot prevention circuit of the CRT display device according to claim 1, wherein the transistor Tr ₅₀ is controlled by d).