KR970006943Y1 - Electro-magnetic field attenuating circuit for monitor - Google Patents

Abstract

none

Description

Electromagnetic Attenuation Circuit of Monitor

1 is an illustration of a flyback transformer applied to the electromagnetic attenuation circuit of the monitor according to the present invention.

2 is a connection diagram between the flyback transformer and the cathode ray tube shown in FIG.

Explanation of symbols on the main parts of the drawings

1: Negative Pulse Generator C1: High Voltage Capacitor

2: negative pulse application point 3: wire

The present invention relates to the electromagnetic attenuation circuit of the monitor. More specifically, it is a standard for shielding harmful waves affecting the human body. Currently, it is applied to all European and global standards. The present invention relates to a monitor electronic circuit that can be certified as a high-priced product and a low-hazardous product that affects humanity around the world by applying the standard to an exported monitor.

Conventionally, the radio wave standard is based on MPR-II, shielding electromagnetic waves by the electromagnetic shielding and the coating of the front cover.In the TCO standard, a negative pulse is generated by winding a wire around the core of the transformer at Philips, which generates a negative pulse. It was applied to the negative portion to cancel the electric and magnetic fields generated in the cathode ray tube with the negative pulse.

The prior art as described above has been difficult to satisfy the TCO standard, and the technology for the TCO standard at Philips has caused difficulties in operation.

The present invention has been made to improve the above problems, the object of the present invention is to form a negative pulse in the transformer to supply to a predetermined position of the monitor to attenuate the electric and magnetic fields generated by the monitor to affect the human body It is to provide an electromagnetic attenuation circuit of a monitor that shields harmful waves to satisfy the Swedish radio standard.

In order to achieve the above object, a feature of the present invention is the amount of positive voltage applied to the high pressure of the cathode ray tube connected to the secondary negative voltage generator of the flyback transformer, the predetermined negative pulse generator, and the flyback transformer. It is provided with the high voltage capacitor to control.

More specifically, a negative pulse is generated by the capacitor and the diode from the primary winding of the flyback transformer, and when a voltage is applied to the primary winding of the transformer by the transistor and the diode, the winding is induced to the secondary side. In the secondary winding, the high voltage is induced by the high voltage diode, and the induced high voltage is output to the anode terminal by the diode, and the high voltage capacitors are connected in parallel to limit the amount of the positive voltage included in the high voltage. At this time, the high voltage is lowered by the resistance value by the resistance is input to the focus stage, the voltage is input to the resistance is lowered by the value of the resistance is input to the screen stage.

This invention is achieved by connecting a flyback transformer that generates a negative pulse in the flyback transformer and limits the positive at high pressure output to the cathode ray tube by the high voltage capacitor to the upper end of the cathode ray tube by wire. On the basis of the accompanying drawings of the present invention in detail as follows.

1 is a circuit diagram of an electromagnetic damping circuit of the present invention, as shown therein, a negative pulse generator 1 for generating a negative pulse by applying a negative voltage to a winding by a diode, and a flyback transformer. It is composed of a high-voltage capacitor (C1) that is connected in parallel to the secondary winding of the former (FBT) to control the positive amount of the high pressure output to the cathode ray tube.

2 is an exemplary view showing an embodiment of an electromagnetic attenuation circuit according to the present invention. The flyback transformer generates a negative pulse in a flyback transformer and restricts a positive voltage at a high pressure outputted to a cathode ray tube by a high voltage capacitor. It is preferable to connect to the upper end of the cathode ray tube by the wire (3).

The operation and effects of the present invention constructed as described above will be described in detail with reference to FIGS. 1 and 2.

A negative voltage is applied to the winding T1 by the capacitors C3 and C4 and the diodes D3 and D4 to generate a negative pulse and the voltage applied to the primary winding T1 of the transformer is converted into a high voltage diode. D5-D10 is provided so that the high voltage is induced in the secondary side winding T2 of the transformer so as to output the high pressure to the cathode ray tube by the diode D5. At this time, the high voltage capacitor connected in parallel to the secondary side winding T2 ( The positive amount of the high pressure is canceled by C1) to cancel the electromagnetic field generated by the monitor and connect the flyback transformer and the upper end of the cathode ray tube with the wires to connect the negative pulse output from the flyback transformer to the upper end of the cathode ray tube. It is applied to the electromagnetic field output to the monitor by applying it to attenuate.

In this case, the high voltage capacitor uses 300 (PF), but when the ringing is not good, the capacity of the high voltage capacitor can be increased to obtain the effect of improving the ringing and reducing the amount of electromagnetic field generated in the cathode ray tube. In the case of the monitor, which is a trend that is progressing to the standard, there are no companies and models that have obtained the TCO standard in Korea yet, and the simple and clear workability of low-cost work is also improved, thus affecting national competitiveness and domestic EMI technology progress. Giving effect.

Claims (1)

The negative amount of positive applied to the high voltage of the cathode ray tube connected in parallel to the negative pulse generator 1 for generating a negative pulse by applying a negative voltage to the winding by the diode and the secondary winding of the flyback transformer. Monitor having a high-voltage capacitor (C1) to control the flyback transformer and the cathode ray tube upper end by a wire (3) to attenuate the electromagnetic field generated by the monitor by applying a negative pulse directly to the cathode ray tube Electromagnetic attenuation circuit.