KR0122907Y1 - Noise erasing circuit - Google Patents

Abstract

The present invention relates to a power supply, and more particularly, to an instantaneous noise canceling circuit for comparing an applied voltage of a high voltage transformer with an applied voltage of a video processor and controlling the applied voltage of the video processor according to the result of the comparison.

The instantaneous noise removing circuit 3 of the present invention has a comparison unit 31 for comparing the output voltage of the first output unit 1 with the output voltage of the second output unit 2, and the comparison unit 31. It is provided with a power supply control unit 32 for switching in accordance with the output signal to control the output voltage of the second output unit (2).

Description

Momentary Noise Reduction Circuit

1 is a view showing the configuration of a general power supply.

2 is a view showing the configuration of the instantaneous voltage removing circuit of the power supply according to the present invention.

3 is a detailed circuit diagram of FIG.

* Explanation of symbols for main parts of the drawings

1: first output unit 2: second output unit

3: instantaneous noise elimination circuit 31: comparison unit

32: power supply control unit R11-R18: resistance

C11, C12: Capacitor Q11, Q12: Transistor

COMP: Comparator

The present invention relates to a power supply, and more particularly, to an instantaneous noise canceling circuit for comparing an applied voltage of a high voltage transformer with an applied voltage of a video processor and controlling the applied voltage of the video processor according to the result of the comparison.

A general power supply device is composed of a diode (Do1) and a capacitor (Co1) as shown in Figure 1, the half-wave rectification of the organic current of the first coil (L1) of the secondary side of the transformer (T) and then smoothed The first output unit 1 applied to the transformer FBT, the diode Do2 and the capacitor Co2 constitute a smoothing after half-wave rectifying the organic current of the secondary coil 1 of the transformer T. The second output unit 2 is applied to the video processor VP.

In the general power supply structure configured as described above, the organic current of the first coil L1 of the secondary side of the transformer T is half-wave rectified by the diode Do1 of the first output unit 1 and then is applied to the capacitor Co1. Applied and smoothed. At this time, the output signal of the capacitor Co1 is applied to the high voltage transformer FBT at about 160V.

Meanwhile, the organic current of the second coil L2 of the secondary side of the transformer T is half-wave rectified by the diode Do2 of the second output unit 2 and then applied to the capacitor Co2 to smooth. At that time, the output signal of the capacitor Co2 is applied to the video processor VP at about 80V.

In the general power supply device as described above, the instantaneous noise component generated by the second output unit 2 is applied to the video processor VP as it is and the driving of the high voltage transformer FBT is stopped. There was a problem that occurred.

Therefore, the present invention compares the output voltage of the first output unit and the output voltage of the second output unit to solve the above problems, and then the instantaneous noise canceling circuit for controlling the output voltage of the second output unit according to the result of the comparison. It is an object of the present invention to provide an instantaneous noise canceling circuit of a power supply that can be connected between the output side of the first output and the output side of the second output to protect the video processor.

The present invention for achieving the above object consists of a first output unit and a second output unit which is applied to the high voltage transformer and the video processor, respectively, by smoothing the half-wave rectification of the organic current of the secondary coil of the first coil and the second coil of the transformer. In the power supply apparatus, the output voltage of the first output unit and the output voltage of the second output unit are compared between the output side of the first output unit and the output side of the second output unit, and then the output of the second output unit according to the comparison result. It further includes an instantaneous noise canceling circuit for controlling the voltage.

Hereinafter, the instantaneous noise removing circuit of the power supply apparatus according to the present invention will be described in more detail with reference to the accompanying drawings.

2 and 3 are diagrams showing the configuration of the instantaneous noise canceling circuit of the power supply apparatus according to the present invention. The first coil L1 of the secondary side of the transformer T is composed of a diode Do1 and a capacitor Co1. The first output unit 1, the diode (Do2) and the capacitor (Co2), which are applied to the high-voltage transformer after the organic current of the half wave rectified and smoothed, are applied to the high voltage transformer to form the secondary coil of the transformer (T). And a second output unit (2) for smoothing and smoothing the induced current of the second wave to a video processor, and connecting between the output side of the first output unit (1) and the output side of the second output unit (2). By comparing the output voltage of the first output unit 1 and the output voltage of the second output unit 2 and controlling the output voltage of the second output unit 2 according to the result of the comparison. 3) consists of.

Here, the instantaneous noise removing circuit 3 includes a comparator 31 comparing the output voltage of the first output unit 1 with the output voltage of the second output unit 2, as shown in FIG. The power supply controller 32 is configured to switch according to the output signal of the comparator 31 to control the output voltage of the second output unit 2.

The comparison unit 31 divides the output voltage of the first output unit 1 and charges the resistors R11 and R12 and the capacitor C11 to set the reference voltage Vref, and the second output unit. Comparators for comparing the resistors R13, R14 and R15 for biasing and distributing the output voltage of (2) and the divided voltages of the reference voltage Vref and the resistors R14 and R15 of the capacitor C11. It is provided with (COMP).

In addition, the power supply controller 32 switches the resistor R16 for biasing the output signal of the comparator 31, the transistor Q11 for switching according to the output signal of the resistor R16, and the switching of the transistor Q11. A transistor Q12 for switching according to a state, a capacitor C12 for charging the output voltage of the second output unit 2, and a charging voltage of the capacitor C12 when the transistor Q12 is switched on. A resistor R17 for bypassing the transistor to the ground of the transistor Q12, and a resistor R18 for discharging the charging voltage of the capacitor C12 when the transistor Q12 is turned off.

In the instantaneous noise removing circuit of the power supply device according to the present invention, the induced current of the first coil L1 of the secondary side of the transformer T is first induced by the diode Do1 of the first output unit 1. After half-wave rectified, it is applied to the capacitor Co1 and smoothed. The output signal of the capacitor Co1 is applied to the high voltage transformer at about 160V.

Meanwhile, the organic current of the second coil L2 of the secondary side of the transformer T is half-wave rectified by the diode Do2 of the second output unit 2 and then applied to the capacitor Co2 to smooth. The output signal of the capacitor Co2 is applied to the video processor at about 80V.

The output voltage of the first output unit 1 is distributed by the resistors R11 and R12 of the comparator 31 of the instantaneous noise removing circuit 3, and the divided voltage is applied to the capacitor C11. The charging voltage is applied to one terminal of the comparator COMP as the reference voltage Vref.

At this time, the output voltage of the second output unit 2 applied to the video processor is applied to the resistors R14 and R15 through the resistor R13 of the comparator 31 and distributed, and then the other side of the comparator COMP. Is applied to the terminal.

In the comparator COMP, if the reference voltage Vref is greater than the divided voltages of the resistors R14 and R15, a comparison signal in a low potential state is output, and in comparison, a comparison signal in a high potential state is output.

That is, when noise is inserted into the output voltage of the second output unit 2 and is instantaneously raised, the output voltage of the raised second output unit 2 is increased by the comparison unit 31 of the instantaneous noise removing circuit 3. The resistor R13 is applied to and distributed through the resistors R14 and R15. At that time, since the divided voltage is larger than the reference voltage Vref, the comparator COMP in the high potential state is output.

In addition, the comparison signal of the high potential state is applied to the transistor Q11 through the resistor R16 of the power supply control unit 32 so that the transistor Q11 is switched on, and thus the transistor Q12 is turned on. Switch to. At that time, the output voltage of the second output unit 2 is charged in the capacitor C12.

Since the charging voltage of the capacitor C12 is applied to the emitter side of the transistor Q12 through the resistor R17, the output voltage of the second output unit 2 applied to the video processor is reduced, so that the second output unit 2 The generated instantaneous noise component is removed.

On the other hand, when the output voltage of the second output unit 2 is normal, the comparison signal output from the comparator COMP of the comparator 31 of the instantaneous noise canceling circuit 3 is output in a low potential state.

In addition, the comparison signal in the low potential state is applied to the transistor Q11 through the resistor R16 of the power supply control unit 32 so that the transistor Q11 is switched to the turn-off state, whereby the transistor Q12 is turned on. Switch off. At that time, the charging voltage of the capacitor C12 is completely discharged through the resistor R18.

As described above, the instantaneous noise removing circuit according to the present invention compares the output voltage of the first output unit with the output voltage of the second output unit and then removes the instantaneous noise controlling the output voltage of the second output unit according to the result of the comparison. The circuit can be protected between the output side of the first output portion and the output side of the second output portion to protect the video processor.

Claims (4)

The first output unit for half-wave rectifying the organic currents of the first coil L1 and the second coil L2 of the transformer T and smoothing them to apply them to the high voltage transformer FBT and the video processor VP, respectively. 1) and a second output unit (2), comprising a connection between the output side of the first output unit (1) and the output side of the second output unit (2) of the first output unit (1) After the output voltage and the output voltage of the second output unit 2 is compared, the instantaneous noise removing circuit 3 for controlling the output voltage of the second output unit 2 according to the result of the comparison is further included. Momentary noise control circuit. The noise canceling circuit (3) of claim 1, wherein the instantaneous noise removing circuit (3) comprises: a comparison unit (31) for comparing the output voltage of the first output unit (1) with the output voltage of the second output unit (2), And a power supply controller (32) for switching in accordance with the output signal of (31) to control the output voltage of the second output unit (2). 3. The capacitor R11 and the capacitor C11 of claim 2, wherein the comparator 31 divides and charges the output voltage of the first output unit 1 to set the reference voltage Vref. And the resistors R13, R14 and R15 for biasing and distributing the output voltages of the second output unit 2, and the reference voltages Vref and the resistors R14 and R15 of the capacitor C11. Instantaneous noise elimination circuit, characterized in that provided with a comparator (COMP) to compare the divided voltage. The power supply control unit 32 of claim 2, wherein the power supply control unit 32 switches the resistor R16 to bias the output signal of the comparator 31, the transistor Q11 to switch according to the output signal of the resistor R16, A transistor Q12 for switching according to the switching state of the transistor Q11, a capacitor C12 for charging the output voltage of the second output unit 2, and the transistor Q12 when the transistor Q12 is turned on. A resistor R17 for bypassing the charging voltage of the capacitor C12 to the ground of the transistor Q12, and a resistor R18 for discharging the charging voltage of the capacitor C12 when the transistor Q12 is turned off. Instantaneous noise elimination circuit, characterized in that provided with).