JPH0728771Y2 - High voltage control circuit device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to a high-voltage control circuit device for a monitor television or the like that works in accordance with a change in horizontal scanning frequency and prevents an increase in high voltage.

[Conventional technology]

FIG. 3 is a block diagram of a conventional horizontal deflection circuit system including a high voltage control circuit device which is the object of the present invention. In the figure,
1 is a synchronous circuit, 2 is an F / V circuit, 3 is a horizontal oscillation circuit, 4 is a horizontal drive circuit, 5 is a horizontal output circuit, 6 is a high voltage generation circuit, 7 is a CRT, 8 is a high voltage control circuit, and 9 is a variable power supply. , 10 is a high voltage mute drive circuit, and 11 is a horizontal scanning frequency discrimination circuit.

FIG. 2 shows an example of a conventional high voltage control circuit device in a display device according to the present invention. Here, 20 is a transistor whose emitter voltage level becomes high level H (hereinafter referred to as H) when the horizontal scanning frequency is lower than a certain value, and becomes low level L (hereinafter referred to as L) when the horizontal scanning frequency is higher than that frequency. Reference numerals 22 and 23 are high-voltage control transistors that are turned on / off according to changes in the emitter voltage of the transistor 20. 24 is a 12V power supply, and the voltage at point A serves as a reference for determining the variable power supply voltage.

Next, the operation will be described.

(1) The voltage level on the emitter side of the transistor 20 becomes H up to a certain horizontal scanning frequency, and becomes L above that.
Now, assuming that the horizontal scanning frequency changes in a direction in which the horizontal scanning frequency rises across the frequency, the emitter voltage level of the transistor 20 changes from H to L, and the transistor 21 turns off from the on state. Then, the transistor 22 is turned on from the off state by the current flowing through the resistor 25 to the base of the transistor 22. Then, a current flows through the base of the transistor 23 until the capacitor 26 is charged, the transistor 23 is turned on, and the reference voltage at the point A drops.

(2) On the other hand, the change in high voltage is fed back from the flyback transformer to the high voltage control circuit 8, and a voltage change output corresponding to the change is obtained. This voltage change is further fed back to the voltage generation circuit of the variable power supply 9, and the power supply voltage is lowered to suppress the rise of high voltage.

(3) By increasing the changing speed of the variable power source 9 by the operation described in (1), the speed of the operation for preventing the rise in high voltage described in (2) can be increased.

[Problems to be solved by the device]

Since the conventional high-voltage control circuit device is configured as described above, the horizontal scanning frequency can be operated only when the horizontal scanning frequency is from a frequency lower than a certain frequency to a frequency higher than the certain frequency, and there is a risk that the high voltage is increased. However, the horizontal scanning frequency change speed is intentionally slowed down so as to approach the variable power supply change speed.
There was a problem that pulling in was slow and the screen was adversely affected.

The present invention has been made to solve the above problems, and even if the high voltage mute operates once, after a certain period of time, the high voltage mute circuit automatically becomes ready to operate again. The purpose of the present invention is to obtain a high-voltage control circuit device capable of coping with all changes in the horizontal scanning frequency that may cause a rise in high voltage.

[Means for Solving the Problems]

The high-voltage control circuit device according to the present invention is a high-voltage control circuit device that prevents an increase in high voltage to be applied to a CRT when the horizontal scanning frequency changes, and a horizontal output according to a change in the high voltage output from the high-voltage generating circuit in normal operation. A high-voltage control circuit that suppresses an increase in the high voltage by changing the voltage applied to the circuit, and lowers the high voltage output from the high-voltage generating circuit when a predetermined potential level is applied to the reference potential point, and a monostable multivibrator. By including a switching circuit for switching the driving state of the high voltage control circuit by applying a control signal of the predetermined potential level to the reference potential point for a predetermined time when a trigger is input, After a certain period of time after the high voltage mute circuit has been activated, the high voltage mute is ready to operate again, and there is a danger that the high voltage will rise. When change in the All horizontal scanning frequency, is obtained so as suppress an increase in pressure.

[Action]

In this invention, by always operating the high voltage mute when the horizontal scanning frequency changes, which may cause the high voltage to rise, the horizontal scanning frequency can be continuously changed.
The rise in high voltage can be suppressed, and the horizontal scanning frequency can be pulled in quickly.

〔Example〕

 An embodiment of the present invention will be described below with reference to the drawings.

In FIG. 1, reference numerals 30 and 31 are transistors for pulse generation in which one is turned off while the other is turned on, and 32 is a transistor for high voltage control which is turned on / off according to a change in collector voltage of the transistor 31. Yes, 100 is a switching circuit using a monostable multivibrator. 33 is an input terminal of the input trigger pulse. A high voltage control loop system 200 is driven by the switching circuit 100 and includes a high voltage mute circuit (high voltage control circuit) that temporarily reduces high voltage.

In FIG. 1, in the stable state, the transistor 31 is held in the on state, and the transistor 30 is held in the off state. Now, when a positive trigger pulse is input from any of the terminals 33, the transistor 30 turns on. Then, the collector voltage of the transistor 30 drops to a voltage determined by the resistance division of the resistors 34 and 35 and the PN junction resistance. This voltage change is through the capacitor 36, assuming that the resistance values of the resistors 35 and 37 are R ₁ and R ₂ , respectively, and the capacity of the capacitor 36 is C ₁ .
Discharge with time constant C ₁ × (R ₁ × R ₂ ). The state in which the transistor 30 is on and the transistor 31 is off continues until both base voltages become equal. When both base voltages become equal, the transistor 31 turns on via the active state, the emitter voltage rises in the form of being pulled up by the rise of the base voltage of the transistor 31, and the transistor 30 turns off, that is, the original stable state. Return to. Therefore, the transistor 32
Turns on for a certain period of time after the trigger pulse is input, and the voltage at point A drops.

On the other hand, as described in (2) above, the voltage of the variable power supply is controlled in response to the change in high voltage, but the high speed mute is activated in the above operation to increase the changing speed of the variable power supply voltage. The horizontal scanning frequency can be quickly pulled in while suppressing the increase in high voltage. Further, according to the above-mentioned operation principle, the high voltage mute once operates and returns to the original standby state after a certain time, so that continuous operation becomes possible.

[Effect of device]

As described above, according to the high voltage control circuit device according to the present invention, in the high voltage control circuit device that prevents the high voltage to be applied to the CRT when the horizontal scanning frequency changes, the high voltage output from the high voltage generation circuit in the normal operation. High-voltage control that changes the voltage applied to the horizontal output circuit according to changes in the above to suppress the rise of the high voltage, and lowers the high voltage output from the high-voltage generation circuit when a predetermined potential level is applied to the reference potential point. Has a circuit and a monostable multivibrator,
When a trigger is input, the high voltage control circuit includes a switching circuit that switches the drive state of the high voltage control circuit by applying the control signal of the predetermined potential level to the reference potential point for a predetermined time. After a certain period of operation, the high-voltage mute is ready to operate again, so it is possible to prevent the high-voltage mute by operating the high-voltage mute at all changes in the horizontal scanning frequency where there is a danger of the high voltage rising. Therefore, the reliability of the horizontal output circuit can be improved, and the horizontal scanning frequency can be pulled in quickly.

[Brief description of drawings]

FIG. 1 is a circuit diagram of a high-voltage control circuit device according to an embodiment of the present invention, FIG. 2 is a circuit diagram of a conventional high-voltage control circuit device, and FIG. 3 is a horizontal deflection circuit system including the conventional high-voltage control circuit device. It is a block diagram. In the figure, 5 is a horizontal output circuit, 6 is a high voltage generation circuit, and 7
Is a CRT, 8 is a high voltage control circuit, 9 is a variable power supply, 10 is a high voltage mute drive circuit, 100 is a switching circuit using a monostable multivibrator, and 200 is a high voltage control loop system including a high voltage mute circuit (high voltage control circuit). Is. The same reference numerals in the drawings indicate the same or corresponding parts.

Claims (1)

[Scope of utility model registration request] 1. A high-voltage control circuit device for preventing an increase in high voltage to be applied to a CRT when the horizontal scanning frequency changes, in which voltage applied to a horizontal output circuit in accordance with a change in high voltage output from a high-voltage generating circuit in normal operation. To suppress the rise of the high voltage and reduce the high voltage output from the high voltage generation circuit when a predetermined potential level is applied to the reference potential point, and a monostable multivibrator, which has a trigger. Is inputted, a high-voltage control is provided, which comprises a switching circuit for switching the driving state of the high-voltage control circuit by applying a control signal of the predetermined potential level to the reference potential point for a predetermined time. Circuit device.