KR0143202B1 - Surge discharging device - Google Patents

Abstract

None.

Description

Lightning surge discharge circuit

1 is a block diagram showing the configuration of a tuner section of a conventional television.

2 shows a lightning surge discharge circuit according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: printed circuit board 110, 150: AC input pattern

120, 140: through hole 130: tuner ground pattern

160: tuner 170: antenna

112, 132, 152: Solderland

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lightning surge discharge circuit, and in particular, a lightning surge discharge circuit for discharging a lightning surge voltage introduced into an antenna to a power cord line by inserting a ground pattern of a tuner between two AC input patterns formed on a printed circuit board. It is about.

FIG. 1 is a block diagram showing the configuration of a tuner section of a general television, and shows that the AC power input from the outside is rectified by the rectifying section 1 and supplied to the tuner 3 through the resistor 2. . Since the surge has a habit of discharging from a high potential to a low position, the input surge is connected to the first ground 4 and the power line through the second ground 5 and the resistor 2 connected to the tuner 3. Discharged. At this time, the capacity of the resistor (2) to be used should have a value of 4M 의해 or more according to domestic standards.

Generally, the lightning surge voltage input to the input line of AC power is only about 1-5%, but the surge voltage or overcurrent input to the antenna is about 95-99%. Countermeasures have been required.

To do this, it is not easy to actually make the ground thick and short by laying out the printed circuit board electrically connected to the antenna, which has caused great damage to TVs or home appliances using the antenna when surges are introduced.

In the case of using an antenna shield box, each point on the surface of the insulator is grounded, or at least in a normal operating state, it is kept at a fixed potential with respect to the ground, so that parts and patterns can be added in case of problems during mass production. There has been a problem that a complex process of cutting and adding is required, and the conventional method as described above does not guarantee reliable discharge by the resistance between the first ground and the second ground, and cannot remove the resistance unconditionally for the discharge of the surge. There was a problem.

Accordingly, the present invention has been made in view of the above circumstances, and an object thereof is to provide a lightning strike region circuit for discharging a lightning surge voltage introduced into an antenna to a power cord input line.

In order to achieve the above object, the lightning surge discharge circuit according to the present invention has two AC input patterns formed on the printed circuit board so as to face each other in the longitudinal direction at regular intervals, and the ground of the tuner between the AC input patterns. The pattern is formed.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

2 is a view showing a lightning surge discharge circuit according to the present invention, the AC input patterns (110, 150) are provided on the printed circuit board 100 to face each other at regular intervals, the AC input pattern (110) On the opposite side of 150, solder lands 112 and 152 having irregularities are formed, respectively.

Meanwhile, the tuner ground pattern 130 electrically connected to the tuner 140 is formed between the AC input patterns 110 and 150, and the solder lands 132 having irregularities are formed on both sides of the tuner ground pattern 130. ) Is formed.

In addition, the through-holes 120 and 140 are formed between the AC input patterns 110 and 150 and the tuner ground pattern 130 in the length direction of the pattern, respectively.

In the circuit of the present invention having the configuration as described above, the lightning surge voltage flowing into the antenna 170 is intended to flow to the ground side due to the discharge behavior of the surge that is intended to flow to a low potential, but is connected between the ground of the power supply side. The resistor having a value of 4 MΩ or more does not bypass directly to the AC power input line, but is applied to the tuner ground pattern 130 formed on the printed circuit board 100 through the tuner 160.

The surge voltage applied to the tuner ground pattern 130 is discharged to the AC input patterns 110 and 150 through solder lands 132 formed on both sides of the tuner ground pattern 130 and bypassed to the AC power input line. And flows to the ground terminal.

Solder lands formed on opposite sides of the AC input patterns 110 and 150 and the tuner ground pattern 130 are formed on the copper plate of the printed circuit board without applying a mask material, that is, an insulator. It is formed by soldering the exposed part, and is a part which discharges better than the part coated with an insulator, and the through part 120 formed between the AC input patterns 110 and 150 and the tuner ground pattern 130. , 140 serves to block the weak discharge voltage generated when the pattern interval is narrow.

According to the present invention described above, since the lightning surge voltage introduced into the antenna is bypassed to the AC power input line using the tuner ground pattern and the AC input pattern formed on the printed circuit board, the lightning surge voltage is applied to the printed circuit board. It prevents the destruction of the assembled tuner and other electronic circuit components in advance, and has the effect of discharging faster than the conventional discharge circuit.

Claims (4)

The antenna is formed between the two AC input patterns 110 and 150 and the two AC input patterns 110 and 150 which are formed to face each other in the longitudinal direction at regular intervals on the printed circuit board 100. Lightning surge discharge circuit characterized in that formed in the tutor ground pattern 130 for discharging the lightning surge voltage introduced into the 170 to the AC power input line. The lightning surge discharge circuit according to claim 1, wherein uneven solder lands (112, 152) are formed on opposite sides of the two AC input patterns (110, 150), respectively. The lightning surge discharge circuit according to claim 1 or 2, wherein uneven solder lands (132) are formed on both side surfaces of the tuner ground pattern (130). The lightning surge discharge circuit according to claim 1, wherein a through hole (120) (140) is formed between the two AC input patterns (110, 150) and the tuner ground pattern (130), respectively.