KR100210023B1 - Circuit for removing electromagnetic wave in a television - Google Patents

Abstract

In order to provide an electromagnetic wave cancellation circuit capable of satisfying the low frequency standards MPR II and TCO standards, a plurality of capacitors (C3) at the output point (A) applied from the smoothing circuit (30) to the anode (32) of the cathode hand tube ( C4) are connected in parallel, and at a predetermined point C between the plurality of capacitors C3 and C4, an antiphase signal having the same magnitude as that applied to the anode 32 of the cathode ray tube is generated. The pulse generating circuit 40 is connected, and the output point D of the pulse generating circuit 40 is connected to an electrode 50 disposed at a predetermined position adjacent to the screen of the cathode ray tube to be discharged from the electrode 50. The signal and the signal applied from the smoothing circuit 30 to the anode 32 of the cathode ray tube are synthesized to cancel the pulse generated from the cathode ray tube.

Description

Electromagnetic wave cancellation circuit

The present invention is an electromagnetic wave for canceling the electromagnetic wave generated in the television receiver

The present invention relates to an erasing circuit, and more particularly, to an electromagnetic erasing circuit capable of satisfying the low frequency standards MPRII and TCO standards.

The MPRⅡ standard is a standard that measures the electric field strength of low frequency using a measuring instrument at a distance of 1m from the screen so that the electric field strength of low frequency is 2.5V or less, and the TCO standard is 30 from the screen. It is a specification that the low frequency electric field strength of the separated point is 2.5V or less.

The high pressure applied to the anode of the cathode ray tube is generated in the flyback transformer, and the flyback transformer has a low pressure bobbin and a high pressure bobbin disposed on the inner circumference of the housing, and the low pressure bobbin and the high pressure bobbin disposed as described above. By the high pressure is generated.

3 is a circuit diagram of a predetermined portion of a conventional television.

A tertiary coil 18 wound on the low pressure bobbin 4 by an electromotive force generated by the primary coil 16 wound on the outer circumference of the low pressure bobbin 4 constituting the flyback transformer 2 and a high pressure bobbin The electromotive force of the secondary coil 20 wound around the outer periphery of (6) is variable.

The voltage generated in the secondary coil 20 is rectified by the diode 22, backed up to generate a high voltage, and the low voltage of approximately 30 V is generated in the tertiary coil 18.

The low voltage generated by the tertiary coil 18 is supplied to various circuits in the television receiver, and the high voltage generated by the secondary coil 20 is applied to the cathode ray tube.

The voltage generated by the secondary coil 20 is removed by the pulsating alternating current component by the smoothing circuit 30 composed of the capacitor C1 and the resistor R1.

The signal appearing at the output point A of the smoothing circuit 30 is a pulse waveform of a predetermined magnitude as shown in FIG. 4, and the pulse waveform is input to the anode 32 of the cathode ray tube.

The output signal appearing at the output point b at the rear end of the capacitor C1 is drastically canceled by the smoothing capacitor C2 and is applied to the main circuit board 34 of the television.

In the conventional television as described above, the output signal applied to the anode 32 of the cathode ray tube is a pulse signal of a predetermined magnitude, and the signal is discharged to the outside without being removed from the screen of the cathode ray tube, which is harmful to human body. Electromagnetic waves.

The electromagnetic wave generated as described above affects the human body, causing a harmful side effect such as decreased vision or infertility.

Accordingly, it is an object of the present invention to provide an electromagnetic wave canceling circuit which can cancel the electromagnetic wave described above.

The object of the present invention described above is to connect a plurality of capacitors in parallel to an output point applied from the smoothing circuit of the flyback transformer to the anode of the cathode ray tube, and the anode of the cathode ray tube at a predetermined output point between the plurality of capacitors. A pulse generator circuit for generating an in-phase signal having the same magnitude as the signal applied to the draw; and an electromagnetic wave cancellation circuit for connecting electrodes disposed at predetermined positions adjacent to the screen of the cathode ray tube at an output point of the pulse generator circuit. Is implemented.

As such, the present invention synthesizes a signal leaked through an electrode connected to a rear end of the pulse generator circuit to a signal input to the anode of the cathode ray tube and cancels the pulse, thereby canceling the electromagnetic wave leaking from the cathode ray tube. will be.

1 is a circuit diagram showing an electromagnetic wave cancellation circuit according to the present invention.

2A is a diagram showing a signal at point A in FIG. 1;

FIG. 2B is a diagram showing a signal at point D in FIG.

2c is a diagram showing electromagnetic waves generated in a cathode ray tube.

3 is a circuit diagram showing a conventional television circuit.

4 is a diagram showing a signal of point A of FIG.

* Explanation of symbols for main parts of the drawings

2: flyback transformer 4: low pressure bobbin

6: high pressure bobbin 16: primary coil

18: tertiary coil 20: secondary coil

22: diode 30: smoothing circuit

32: anode of cathode ray tube 34: main circuit board

40: pulse generating circuit 50: electrode

C1, C4: Capacitor C2: Smooth Capacitor

R: Resistor A, B, C, D: Output Point

According to the accompanying drawings, preferred embodiments of the present invention configured as described above will be described in detail. In this embodiment, parts identical to those described with reference to FIG. 3 are denoted by the same reference numerals to avoid duplication of explanation.

1 is a circuit diagram showing an electromagnetic wave removing circuit according to the present invention.

A secondary coil 20 wound on the outer circumference of the high pressure bobbin 6 by electromotive force generated by the primary coil 16 wound on the outer circumference of the low pressure bobbin 4 constituting the flyback transformer 2, The electromotive force of the tertiary coil 18 wound on the low pressure bobbin 4 is variable.

The voltage generated in the secondary coil 20 is rectified by the diode 22, backed up to generate a high voltage, and the low voltage of approximately 30 V is generated in the tertiary coil 18.

The low voltage is supplied to the various circuits in the television receiver by the tertiary coil 18, and the high voltage generated by the secondary coil 20 is applied to the anode of the cathode ray tube.

The voltage generated by the secondary coil 20 is removed by the pulsation component by the smoothing circuit 30 composed of the capacitor C1 and the resistor R1, and the output point A of the smoothing circuit 30 described above. Is a pulse waveform as shown in FIG. 2A.

The output signal appearing at the output point B at the rear end of the capacitor C1 is canceled by the smoothing capacitor C2, and a part thereof is applied to the main circuit board 34 of the television.

A plurality of capacitors C3 and C4 are connected to the output point A of the smoothing circuit 30, and the signals output from the smoothing circuit 30 are the plurality of capacitors C3 and C4 described above. This removes the direct current component of the signal.

The pulse generating circuit 40 is connected to the predetermined output point C between the plurality of capacitors C3 and C4 so that the signal outputted from the predetermined output point C on the circuit is the pulse generating circuit 40. Is entered.

The pulse generating circuit 40 generates an antiphase signal having the same magnitude as that of the output signal of the smoothing circuit 30 composed of the capacitor C1 and the resistor R1, and the pulse generating circuit 40 described above. The signal of output D of D is as shown in FIG. 2B.

The signal output from the pulse generating circuit 40 is emitted to the outside through the electrode 50 connected to the rear end of the pulse generating circuit 40, the electrode 50 is a smoothing circuit composed of a cathode ray tube ( The pulsation component is removed by 30), and the signal appearing at the output point A of the smoothing circuit 30 is a pulse waveform as shown in FIG. 2A.

The output signal appearing at the output point B at the rear end of the capacitor C1 is canceled by the smoothing capacitor C2, and a part thereof is applied to the main circuit board 34 of the television.

A plurality of capacitors C3 and C4 are connected to the output point A of the smoothing circuit 30, and the signals output from the smoothing circuit 30 are the plurality of capacitors C3 and C4. This removes the direct current component of the signal.

The pulse generating circuit 40 is connected to the predetermined output point C between the plurality of capacitors C3 and C4 so that the signal outputted from the predetermined output point C on the circuit is the pulse generating circuit 40. Is entered.

The pulse generating circuit 40 generates an antiphase signal having the same magnitude as that of the output signal of the smoothing circuit 30 composed of the capacitor C1 and the resistor R1, and the pulse generating circuit 40 described above. The signal at the output point D of is as shown in FIG. 2B.

The signal output from the pulse generating circuit 40 is emitted to the outside through the electrode 50 connected to the rear end of the pulse generating circuit 40, the electrode 50 is a cathode ray adjacent to the screen of the cathode ray tube It is arrange | positioned at the predetermined | prescribed inner peripheral part of a board.

As described above, the signal output through the electrode 50 is synthesized with the output signal applied from the pulse generating circuit 40 to the anode 32 of the cathode ray tube to cancel the pulse component of the signal as shown in FIG. 2C. do.

Therefore, according to the present invention, the pulse component of the signal output from the smoothing circuit 30 is generated in the capacitor (C3) 34 and the pulse generating circuit 40 connected in parallel to the smoothing circuit 30 described above, so that the electrode ( 50) is synthesized with the signal emitted through the pulse component of the signal to cancel, so that the electromagnetic wave harmful to the human body in the cathode ray tube is not generated.

In the electromagnetic wave canceling circuit to which the present invention is applied, the pulse component of the signal output from the smoothing circuit is canceled by the signal generated by the pulse generating circuit and the condenser connected in parallel to the smoothing circuit. Since electromagnetic waves are not generated, the reliability of the product is greatly improved.

Claims (1)

In the electromagnetic wave canceling circuit for canceling the electromagnetic waves generated in the cathode ray tube, a plurality of capacitors (C3) (C4) in parallel to the output point (A) applied from the smoothing circuit 30 to the anode 32 of the cathode ray tube And a pulse generating circuit for generating an antiphase signal having the same magnitude as that applied to the anode 32 of the cathode ray tube at a predetermined output point c between the plurality of capacitors C3 and C4. And an electrode (50) arranged at a predetermined position adjacent to the screen of the cathode ray tube to the output point (D) of the pulse generator circuit (40).