KR100190588B1 - A high voltage occurring with lower noise skill - Google Patents

Abstract

The present invention relates to a high pressure generating device of a monitor, comprising: an FBT for receiving a power output from a power supply unit and generating a high voltage to a CRT, a horizontal output circuit for controlling the operation of the FBT, and an output signal of the horizontal output circuit. A high pressure generator of a monitor having an FBT driving unit for driving the FBT, the high pressure regulating device being connected to an output terminal of the power supply unit and maintaining a high pressure output to the FBT at a constant level, and the high pressure regulating device is predetermined. It is provided with a noise prevention unit for gradually increasing the high pressure applied to the FBT by outputting a signal to gradually apply a high pressure applied to the CRT during the initial driving of the monitor to prevent noise due to the instantaneous application of high pressure.

Description

Low noise high pressure generator

1 is a circuit diagram showing a general high pressure generator.

2 is a circuit diagram showing a low noise and high pressure generation apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

10: power supply unit 20: high pressure control device

30: FBT 40: horizontal output circuit

50: FBT drive unit 60: noise prevention unit

R1, R2: resistors Q1, Q2: transistors

C1-C3: Capacitor D: Diode

The present invention relates to a high-pressure generator of the monitor, and more particularly to a low noise high-pressure generator for controlling the high pressure applied to the CRT during the initial operation of the monitor to prevent noise due to the instantaneous application of high pressure.

In a general monitor, the high pressure generator for applying a high pressure to the CRT is a driving power source for generating a high pressure applied to the CRT of the monitor, that is, B as shown in FIG. A flyback transformer connected to the power supply unit 1 for outputting power and the output terminal of the power supply unit 1 and generating a high voltage according to the winding ratio of the primary coil and the winding ratio of the secondary coil to the CRT. FBT 2 and a transistor Q1 connected to the primary coil of the FBT 2, a diode D1, capacitors C1 and C2, and a coil L1 to form the FBT 2; An FBT driver 3 for driving and a horizontal output circuit 4 for controlling the operation of the FBT 3 by turning on / off a signal applied to the FBT driver 3.

In the general high voltage generator configured as described above, when power is applied and the monitor starts to operate, the power supply unit 1 applies an appropriate voltage to the primary side of the FBT 2 for each mode of the monitor. If the monitor is in the VGA mode, the power supply unit 1 applies a voltage of about 60-70V to the FBT 2. At this time, the horizontal output circuit 4 outputs a drive signal and applies an appropriate voltage to the FBT difference side. If the monitor is in the VGA mode, the power supply unit 1 applies a voltage of about 60-70V to the FBT 2. At this time, the horizontal output circuit 4 outputs a driving signal to periodically turn on / off the transistor Q1 in the FBT driver 3 so that the primary coil of the FBT 3 is driven by a voltage applied from the power supply 1. Become a woman. Therefore, the high pressure determined according to the turns ratio of the primary coil and the secondary coil of the FBT 3 is applied to the CRT. Here, the excitation voltage of the primary coil of the FBT 3 is rectified by the diodes D1, the capacitors C1 and C2 and the coil L1 in the FBT driving section 3, and is applied to the transistor Q1.

However, in the general high pressure generator as described above, the high pressure output during the initial driving of the monitor is suddenly applied to the FBT. Accordingly, there is a problem that the noise is severely generated while the high pressure is output to the CRT in the FBT.

The present invention has been invented to solve such a problem, the high pressure applied to the FBT during the initial operation of the monitor to stand up and down to prevent the instantaneous high-voltage output from the FBT to the CRT and accordingly the high pressure is applied to the CRT It is an object of the present invention to provide a low noise and high pressure generating device for preventing noise generated.

In the low noise and high pressure generator of the present invention for achieving the above object, the FBT is applied to the CRT by generating a high voltage by receiving the power output from the power supply unit, a horizontal output circuit for controlling the operation of the FBT, and the horizontal output circuit A high pressure generator of a monitor having an FBT drive unit for driving the FBT by receiving an output signal, the high pressure regulating device being connected to an output terminal of the power supply unit and maintaining a high pressure outputted to the FBT constantly; It is provided with a noise prevention unit for outputting a predetermined signal to the device to gradually increase the high pressure applied to the FBT.

Hereinafter, a preferred embodiment of a low noise high pressure generating device according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram illustrating a high pressure generator according to the present invention. As shown in Figure 2, the high-pressure generator according to the present invention is a driving power source for generating a high pressure applied to the CRT, that is, B A power supply unit 10 for outputting power, a high pressure control device 20 connected to an output terminal of the power supply unit 10 to maintain a constant high pressure, and an input end thereof is connected to an output terminal of the high pressure control device 20 B output from the power supply unit 10 FBT (30) for applying the power to the CRT by generating a high pressure according to the number of turns of the primary coil and the number of turns of the secondary coil by applying power, the horizontal output circuit 40 for controlling the high-voltage generating operation of the FBT (30) An FBT driver 50 connected between the output end of the horizontal output circuit 40 and the other end of the input side of the FBT 30 to apply a drive signal output from the horizontal output circuit 40 to the FBT 30; And a noise prevention part 60 which outputs a signal to the high pressure control device 20 to prevent noise generated when a high pressure is momentarily applied to the CRT by standing up and down to increase the high pressure applied to the FBT 30. It is. The output signal of the FBT 30 is fed back to the groin control device 20. The high pressure control device 20 is widely used in a general high pressure generator.

Here, the noise prevention part 60 is connected to the driving power source Vcc and biased. The output terminal of the first resistor R1 is connected to the base terminal of the transistor Q2. One side of the capacitor C3 is connected in parallel with the first resistor R1 and the other side is grounded. The first resistor R1 and the capacitor C3 allow the driving power source Vcc to be gradually applied to the transistor Q2. The second resistor R2 is connected between the driving power supply Vcc and the collector terminal of the transistor Q2. It is connected between the said drive power supply Vcc and the collector terminal of the said transistor Q2. The output side of the second resistor R2 is also connected to the anode side of the diode D. The cathode side of the diode D is connected to the high pressure regulator 20. The second resistor R2 supplies the driving power supply Vcc to the high voltage regulator 20 before the transistor Q2 becomes active due to the action of the first resistor R1 and the capacitor C3. It becomes a passage to apply. However, after a predetermined time determined by the first resistor R1 and the capacitor C3 has passed, the transistor Q2 is turned on so that the driving power source Vcc is discharged through the transistor Q2. It is no longer supplied to the high pressure regulator (20). The diode D is connected between the high voltage regulator 20 and the collector terminal of the transistor Q2 to prevent the power applied to the high voltage regulator 20 from being applied to the transistor Q2.

Referring to the operation and effect of the present invention configured as described above in detail.

When the monitor starts to operate, the power supply unit 10 applies the output voltage according to the mode of the monitor to the primary side of the FBT 30 through the high pressure regulator 20. The voltage excited on the secondary side according to the winding ratio of the primary side and the winding ratio of the secondary side of the FBT 30 is fed back to the high-pressure control device 20. The high pressure control device 20 is a B to the FBT 30 to adjust the voltage output from the power supply unit 10 to a predetermined voltage set for each mode Since the voltage must be constant, when the voltage returned to the high pressure regulator 20 on the secondary side of the FBT 30 is increased, the high pressure regulator 20 causes the voltage outputted to the FBT 30 to drop. do.

Therefore, in the noise suppression unit 60 of the present invention, the transistor Q2 is turned on by the time constant determined by the first resistor R1 and the capacitor C3 in the noise suppression unit 60 when the monitor is initially driven. Delay on time. Until the transistor Q2 is turned on, the driving voltage Vcc is applied to the secondary side excitation voltage of the FBT 30 fed back to the high voltage regulator 20 and the second resistance R2 of the noise prevention part 60 is maintained. ) Is added through the diode (D) and supplied to the high pressure control device (20). Therefore, the high-pressure control device 20 that receives the driving power Vcc output from the noise prevention unit 60 lowers the B + voltage output to the FBT 30. Accordingly, the high pressure output to the secondary side of the FBT 30 is also lowered. When the time elapses, when the transistor Q2 is input to the base terminal when the driving power supply Vcc is delayed by the time constant determined by the resistor R1 and the capacitor C3 in the noise suppression unit 60 at the time of initial driving of the monitor. The transistor Q2 is turned on. As described above, the driving power supply Vcc is discharged to the ground through the transistor Q2 because the transistor Q2 is turned on. That is, the noise prevention part 60 does not output the applied driving power supply Vcc to the defrosting high-pressure control device 20. Therefore, the high voltage regulator 20 normally applies the B + voltage output to the FBT 30 so that a voltage of 24 KV necessary for driving the CRT is output from the secondary side of the FBT 30, where the diode D is fed back. The voltage is prevented from being applied to the transistor Q2. As a result, the present invention adds the driving power (Vcc) to the power control unit 20 by the operation of the noise prevention unit 60 during the initial driving of the monitor, so that the power control unit 20 is the primary side of the FBT 30. It is to lower the B + voltage outputted to obtain a stable FBT (30) output. That is, the high pressure that is excited to the secondary output terminal of the FBT 30 is gradually applied by the operation of the noise prevention unit 60 during the initial driving of the monitor.

As described above, the low noise high pressure generating device according to the present invention gradually increases the high pressure applied to the FBT during the initial operation of the monitor, thereby preventing the instantaneous high pressure output from the FBT to the CRT, which is generated when the high pressure is applied to the CRT. It is effective in preventing noise.

Claims (1)

(Correction) FBT 30 for receiving the power output from the power supply unit 10 to generate high voltage and applying it to the CRT, a horizontal output circuit 40 for controlling the operation of the FBT 30, and the horizontal output circuit. In the high-pressure generating device of the monitor having an FBT driver 50 for driving the FBT 30 by receiving the output signal of the (40), A high-pressure control device 20 which receives the B + voltage from the power supply unit 10 and maintains the B + voltage output to the FBT 30 in each mode constantly; In order to apply a driving power supply (Vcc) to the high-pressure control device 20 at the initial startup of the monitor and to block the driving voltage (Vcc) applied to the high-pressure control device 20 after a predetermined time elapses, the driving power supply (Vcc) ) Is connected between the first resistor R1 and the capacitor C3 connected between the input terminal of the transistor Q2 and the collector terminal of the driving power source Vcc and the transistor Q2 and the high voltage regulator 20. Low noise and high voltage generator, characterized in that it comprises a noise prevention part (60) consisting of a diode (D) to prevent the reverse voltage is applied to the transistor (Q2).