KR100829618B1 - Circuit for noise attenuation - Google Patents

Abstract

The noise attenuation circuit according to the present invention is characterized in that a resistor and a capacitor connected in parallel between the ground line of the power cord and the transformer secondary ground are provided to improve image noise.

In addition, in order to improve image noise, a resistor and a capacitor connected in parallel through an inductor and a resistor connected in parallel between the ground line of the power cord and the transformer secondary ground are provided.

The noise attenuation circuit according to the present invention having such a feature uses an inductor, a capacitor, and a resistor to smooth the degree of current inflow into the power supply due to a sudden change in the monitor load, thereby reducing the load variation of the power supply. Noise due to the waterfall pattern, in particular the waterfall noise is attenuated.

Description

Noise attenuation circuit {Circuit for noise attenuation}

1 is a schematic structural diagram of a computer system.

2 is a circuit diagram showing a conventional AC / DC adapter.

Figure 3 is a circuit diagram showing an AC / DC adapter with a noise attenuation circuit according to an embodiment of the present invention.

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

10 ... Monitor 20 ... AC / DC adapter

30 PC 21 rectifier

22 ... Transformer 23 ... 2nd Rectifier

24 ... switching control element 25 ... switch

Noise reduction circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a noise attenuation circuit, and more particularly, to a circuit for attenuating image noise, particularly waterfall noise, generated when a monitor load changes abruptly in a computer system.                         

1 is a schematic structural diagram of a computer system.

Referring to FIG. 1, a computer system includes a PC 30 that is the backbone of a computer system, a monitor 10 receiving and displaying a signal from the PC 30, and an AC / power supplying power to the monitor 10. It is composed of a DC adapter 20, which will be described in more detail, the PC 30 is a part for performing the control and operation of the computer system, and has a central processing unit, a storage unit and a communication unit therein.

The monitor 10 is a display device that displays a process and a result processed by the PC 30 to a user. The monitor 10 is connected to the PC 30 via a signal line and separately for supply of internal power. Or built-in AC / DC adapter. The AC / DC adapter 20 converts AC power of a wall power source using three terminals of Live, Neutral, and Ground into DC to be suitable for driving the internal circuit of the monitor 10. It is absent. For reference, the wall power source is a power supply terminal installed in a home or an office, and may be simply considered an outlet.

In this computer system divided into three parts, the current I supplied from the AC / DC adapter 20 to the monitor 10 is equal to the sum of the currents I1 and I2 returned from the monitor 10 to the wall power source. .

That is, it becomes as following equation (1), which is evident according to Kirchhoff's law of current.

I = I1 + I2

Where I is the current supplied from the AC / DC adapter to the monitor, and I1 and I2 are the currents returned to the wall power from the monitor.

That is, the current I supplied from the AC / DC adapter to the monitor is returned to the AC / DC adapter again to be discharged to the wall power supply (current I1), or to the wall power supply through the PC (current I2), and the sum is monitored. Is equal to the current I supplied to.

2 is a circuit diagram showing a conventional AC / DC adapter.

Referring to FIG. 2, the conventional AC / DC adapter 20 includes a rectifier 21 in which AC is converted into DC, a transformer 22 in which the converted DC power is adjusted to a desired value, and a voltage of the transformer 22. The switch 25 and the switching control element 24 for controlling the operation, and the second rectifier 23 for rectifying the power supply through the transformer 22 once again.

In more detail, the rectifier 21 is a member for converting a wall power in an AC state into a direct current suitable for driving a monitor. A bridge diode is generally used for full-wave rectification, and a smoothing circuit is provided at a rear end of the diode. As a result, a condenser is placed to attenuate the remaining pulsation after rectification.

The transformer 22 is a member for converting the DC power passed through the rectifier 21 to a desired size and includes a switching control element 24 and a switch 25 for control. That is, the operation of the transformer 22 is determined by the on / off of the switch 25, the on / off of the switch 25 is in charge of the switching control element (24).                         

The second rectifier 23 is a member positioned on the secondary side of the transformer 22 to rectify the DC power converted to a desired value once again, and includes a diode and a capacitor for smoothing.

The output of a conventional AC / DC adapter having such a configuration becomes an input of a monitor, and the ground line of the output line is used as a passage of current returned from the monitor. Therefore, the ground line of the output line of the AC / DC adapter is connected to the ground line of the wall power source.

However, when a conventional AC / DC adapter having such a configuration is used, unwanted noise may be generated in the monitor. In other words, if the load of the monitor changes suddenly due to the brightness of the screen, the current supplied to the monitor cannot be properly distributed to the PC and the AC / DC adapter due to the capacity of the signal line connecting the PC and the monitor. Excessive flow into the adapter causes this load variation of the AC / DC adapter, resulting in waterfall-like waterfall noise on the monitor.

An object of the present invention is to provide a noise attenuation circuit capable of suppressing the occurrence of noise by allowing the AC / DC adapter to supply a constant power regardless of a sudden load change of the monitor. It is done.

In order to achieve the above object, the noise attenuation circuit according to the present invention is characterized in that a resistor and a capacitor connected in parallel through an inductor are provided between a ground line of a power cord and a transformer secondary ground to improve image noise.

In addition, in order to improve image noise, a resistor and a capacitor connected in parallel through an inductor and a resistor connected in parallel between the ground line of the power cord and the transformer secondary ground are provided.

As described above, the noise attenuation circuit according to the present invention includes an inductor and a capacitor between the ground of the power cord and the transformer secondary ground to prevent sudden fluctuations in the current returned from the monitor. Therefore, a sudden influx of current is prevented, so that the normal operation of the power supply device can be prevented, thereby preventing the occurrence of noise due to abnormal power supply.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a circuit diagram showing an AC / DC adapter with a noise attenuation circuit according to an embodiment of the present invention.

Referring to FIG. 3, the noise attenuation circuit 100 according to the present embodiment has a resistor and a capacitor connected in parallel, and consists of an inductor connected in series with a block made of the resistor and the capacitor.

In more detail, the noise attenuation circuit 100 is located inside the AC / DC adapter for supplying power to the monitor in a computer system, the position of which is between the ground line of the output line of the adapter and the ground of the wall power source. to be.

Looking at the operation of the AC / DC adapter having such a configuration, first the AC power introduced from the wall power supply flows into the rectifying portion 21 of the AC / DC adapter, the rectifying portion 21 is a bridge diode with full-wave rectification and It consists of a condenser whose attenuation is attenuated by a smoothing action. That is, the AC power is converted into DC power in the rectifier 21, which is converted into DC power of a desired value via the transformer 22 again. At this time, the transformer 22 is controlled by a switch 25 made of a transistor and a switching control element 24 driving the switch 25. The DC power converted to the user's desired value is rectified once again for a complete DC waveform, which is performed by the second rectifier 23 composed of a diode and a capacitor located on the secondary side of the transformer 22.

The DC power passed through the second rectifying unit 23 is supplied to the monitor. As described above, the current supplied to the monitor is connected to the wall power through the ground line connected to the monitor and the signal line of the PC connected to the monitor. Return to ground However, as described above, when the load suddenly changes due to brightness adjustment, etc., a large return current flows into the ground line of the AC / DC adapter due to a capacity problem of the signal line of the PC, causing a sudden load change of the adapter. Noise is generated in the monitor. In order to solve this problem, the noise attenuation circuit 100 according to the present invention allows the variation of the return current to be made smoothly, which is possible by using an inductor for delaying an AC waveform and a capacitor for delaying a DC waveform.

In the present embodiment, the noise attenuation circuit 100 is composed of a resistor and a capacitor connected in parallel, and an inductor connected in series to a block composed of the resistor and the capacitor. However, the inductor may also be configured in parallel with a separate resistor.

On the other hand, the present invention is not limited to the above embodiments and many variations are possible by those skilled in the art within the spirit of the invention.

As described above, the noise attenuation circuit according to the present invention uses an inductor, a capacitor, and a resistor to smooth the degree of current inflow into the power supply due to a sudden change in the monitor load, thereby changing the load variation of the power supply. Noise due to the noise, in particular waterfall noise of the waterfall pattern is attenuated.

Claims (2)

Noise reduction circuit comprising a resistor and a capacitor connected in parallel between the ground line of the power cord and the transformer secondary ground through an inductor to improve the image noise. A noise attenuation circuit comprising a resistor connected in parallel between an inductor, a resistor connected in parallel, and a capacitor connected in series between a ground line of a power cord and a transformer secondary ground to improve image noise.

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