KR0138679B1 - Degaussing circuit and controlling method for a monitor - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor, and more particularly, to a magnetizing device and a control method of a monitor capable of automatically removing electromagnetic waves by driving a degaussing coil using a sensor that senses electromagnetic waves. An electromagnetic field sensor (S) for detecting electromagnetic waves attached thereto, an analog / digital converter (A / D) for converting an output signal of the electromagnetic field sensor (S) into a digital signal, and the analog / digital converter (A / A microprocessor (MIC) for receiving the output signal of D) to drive the relay (RL) is further included.

Description

Self-extinguishing device of monitor and its control method

1 is a view showing the configuration of a magnetizer for a general monitor.

2 is a view showing the configuration of a magnetizing device of the monitor according to the present invention.

3 is a view showing a method of magnetizing a monitor according to the present invention.

* Explanation of symbols for main parts of the drawings

S: Electromagnetic field sensor A / D: Analogue / digital converter

MIC: Microprocessor RL: Relay

DL: degaussing coil

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor, and more particularly, to a magnetizing device and a control method of a monitor for automatically removing electromagnetic waves by driving a degaussing coil using a sensor for sensing electromagnetic waves.

As shown in FIG. 1, when the power switch SW is turned on, an AC power source AC is supplied to the degaussing coil DL through the power switch SW to land the electrons. It is configured to generate a magnetic force that is opposite to the generated magnetic force.

That is, when the power switch SW is switched to the ON state, a current flows through the relay coil to switch the relay RL to the ON state, and the AC power AC input by the switching state of the relay RL. Degaussing coil DL generating magnetic force opposite to the magnetic force generated to magnetize electrons, and the resistance increases when temperature is increased, thereby reducing the amount of current flowing through the degaussing coil DL. It is provided with a resistor (PR).

In the general magnetization erasing device as described above, when the power switch SW is turned on by a user, current is supplied to the relay coil of the relay RL, and the relay switch is turned on so that the AC power is input. AC) is supplied to the degaussing coil DL through a relay switch.

In the degaussing coil DL, a magnetic force opposite to the magnetic force generated to magnetize the electrons is generated to remove electromagnetic waves caused by the magnetic force generated to magnetize the electrons.

After that, the temperature of the resistor PR increases after a certain time, and the resistance value increases gradually in the resistor PR, thereby decreasing the current flowing in the degaussing coil DL.

In the general magnetization eraser as described above, since only the electromagnetic waves generated when the power switch SW is switched to the on state are removed for a predetermined time, the electromagnetic waves generated during the use of the monitor cannot be removed.

Therefore, in order to solve the above problems, the electromagnetic wave is detected through an electromagnetic field sensor attached to the front side of the cathode ray tube, and a relay is automatically driven so that the magnetization can be easily removed. And it is an object of the present invention to provide a control method thereof.

The object of the present invention is a magnetizing device for a monitor that removes electromagnetic waves by generating an opposite magnetic force generated to magnetize electrons by supplying AC power input through a relay to a degaussing coil installed in a cathode ray tube. In the present invention, an electromagnetic field sensor attached to the front surface of the cathode ray tube detects electromagnetic waves, an analog / digital converter for converting the output signal of the electromagnetic field sensor into a digital signal, and an output signal from the analog / digital converter to drive the relay. The microprocessor is further included.

EMBODIMENT OF THE INVENTION Hereinafter, the magnetizing apparatus and the control method of the monitor which concern on this invention are demonstrated in detail based on attached drawing.

2 is a view showing the configuration of a magnetization erasing device for a monitor according to the present invention, as shown in the figure, an electromagnetic field sensor (S) for detecting electromagnetic waves by attaching to the front portion of the cathode ray tube, and the electromagnetic field sensor ( Analog-to-digital converter (A / D) for converting the output signal of S) to a digital signal, and microprocessor (MIC) for generating a control signal for driving a relay by receiving the output signal of the analog-to-digital converter (A / D). ), The relay RL for switching the relay switch by the current flowing through the relay coil according to the control signal of the microprocessor MIC, and the AC power inputted by the switching state of the relay RL magnetizes electrons. It is provided with a degaussing coil (DL) for generating a magnetic force that is opposite to the generated magnetic force.

3 is a view illustrating a method of magnetizing a monitor according to the present invention. As shown in FIG. 3, the first step S1 to the sixth step S6 are provided.

In the magnetization erasing device of the monitor according to the present invention, an electromagnetic wave is detected from an electromagnetic field sensor S1 attached to a cathode ray tube, and the detected electromagnetic wave is supplied to an analog / digital converter (A / D) to provide a digital signal. The converted digital signal is supplied to a microprocessor (MIC).

At this time, when the digital signal is larger than the reference value compared with the reference value of the electromagnetic wave stored in the microprocessor (MIC), the control signal in the high potential state is output.

The control signal in the high potential state is supplied to the relay RL so that a current flows in the relay coil so that the relay switch is turned on, and the high current power AC input by the switching operation of the relay switch degassing coil. Is applied to (DL).

That is, in the degaussing coil DL, a magnetic force opposite to the magnetic force generated to magnetize the electrons is generated to remove electromagnetic waves caused by the magnetic force generated to magnetize the electrons.

After a certain period of time, the electromagnetic wave detected by the electromagnetic field sensor S is supplied to an analog / digital converter (A / D), converted into a digital signal, and then the digital signal supplied to the microprocessor (MIC) is a microprocessor ( It becomes below the reference value of M, IC), and the control signal of a low electric potential state is output.

In the low potential state, the control signal is supplied to the relay RL so that the relay switch is turned off so that no further AC power AC is supplied to the degaussing coil DL.

The above-described process will be described with reference to FIG. 3.

That is, after the electromagnetic wave detected by the electromagnetic field sensor S and converted into a digital signal is read by the first step S1, the second step S2 is executed to compare with a reference value stored in the microprocessor MIC. do. If it is positive at this time, 3rd step S3 is executed, the control signal of a high electric potential state will be output, and 4th step S4 will be performed.

The relay RL is driven by the control signal in the high potential state output from the third step S3 and supplied to the AC power supply AC to the degaussing coil DL, thereby removing electromagnetic waves.

When the result is negative by the second step S2, the fifth step S5 is executed to output the control signal in the low potential state, and then the sixth step S6 is executed. That is, the driving of the relay RL is stopped by the control signal in the low potential state, so that the AC power source AC is not supplied from the degaussing coil DL.

As described above, the magnetization cleaning device of the monitor and the control method thereof according to the present invention can easily perform magnetization by driving a relay automatically when electromagnetic waves are detected through the electromagnetic field sensor attached to the front of the cathode ray tube. It is effective.

Claims (2)

Magnetization of the monitor that removes electromagnetic waves by generating a magnetic force opposite to the magnetic force generated to magnetize electrons by supplying the high current power AC input through the relay RL to the degaussing coil DL installed in the cathode ray tube. An erasing device comprising: an electromagnetic field sensor (S) attached to a front surface of a cathode ray tube for sensing electromagnetic waves, and an analog / digital converter (A / D) for converting an output signal of the electromagnetic field sensor (S) into a digital signal; And a microprocessor (MIC) for receiving the output signal of the analog-to-digital converter (A / D) to drive the relay (RL). In a magnetization erasing device in which a control signal is output from a microprocessor (MIC) by an electromagnetic wave supplied from an electromagnetic field sensor (S), and a relay (RL) is automatically driven from the control signal. A first step S1 for reading electromagnetic waves detected by S) and converted into a digital signal, and a second step for comparing the digital signal read by the first step S1 with a reference value stored in the microprocessor MIC. S2), and if the result of the second step S2 is positive, the third step S3 outputs the control signal in the high potential state, and the control signal in the high potential state output in the third step S3. The fourth step S4 at which the relay RL is driven, the fifth step S5 at which the low-potential control signal is output if the result is negative by the second step S2, and the fifth step S5. By the control signal of the low potential state output at step S5 Ray (RL) magnetization method of erasing a sixth step (S6) in order to monitor the made to be driven is stopped.