KR20030025078A - Signal processing apparatus having funciton of being protected from lightning - Google Patents

Abstract

PURPOSE: A signal processing apparatus having a thunderstroke protection function is provided to prevent damages on main components of circuits from thunderstroke by outputting elements of the thunderstroke to an AC power input portion. CONSTITUTION: A signal processing portion(42) processes radio signals received through an antenna(62) and includes a tuner(58) having an earth portion(60). The signal processing portion(42) has the second terminal(56) to receive DC power provided from the first terminal(54) of an attenuation portion(40). The attenuation portion(40) has an AC power input portion(50). The signal processing portion(42) converts the AC power to DC power. The DC power is outputted to the second terminal(56) of the signal processing portion(42) through the first terminal(54). The AC power input portion(50) has a sparker gap including the first and the second sides(70,72). The signal processing portion(42) has the first connection line(62). The attenuation portion(40) has the second connection line(52).

Description

Signal processing apparatus having funciton of being protected from lightning

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to signal processing devices, such as liquid crystal display (LCD) televisions, satellite or cable televisions, which process wireless signals received via an antenna from the outside, and in particular, can protect itself from lightning strikes. A signal processing device having a lightning protection function.

FIG. 1 is a block diagram of a conventional signal processing apparatus, which is composed of an attenuator (or an adapter) 10 and a signal processing unit 20.

The attenuator 10 illustrated in FIG. 1 converts an AC power input from the outside through the AC power input unit 12 into a DC power having a desired level in the signal processing unit 20, and converts the converted DC power into a first terminal. The signal is output to the signal processor 20 through 14. At this time, the signal processing unit 20 inputs the DC power provided from the first terminal 14 of the attenuation unit 10 through the second terminal 16 and tunes the radio signal received through the antenna 24. Input through 22 to process the signal.

Since the signal processor 20 shown in FIG. 1 is chassis grounded, the tuner 22 is also grounded in the chassis. Therefore, when the lightning component flows through the antenna 24, the lightning component may flow through the RF cable to the chassis of the signal processing unit 20 where the tuner 22 is grounded. There is a problem that the main components included in the signal processor 20 may be destroyed.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a signal processing apparatus having a lightning protection function for protecting its main parts that can be destroyed from lightning.

1 is a block diagram of a conventional signal processing apparatus.

2 is a block diagram of a preferred embodiment of a signal processing apparatus having a lightning protection function according to the present invention.

3 is a block diagram of another preferred embodiment of a signal processing apparatus having a lightning protection function according to the present invention.

In order to achieve the above object, a signal having a lightning protection function according to the present invention includes a tuner for inputting a radio signal received from the outside through an antenna and having a signal processing unit grounded to the chassis and an AC power input unit for inputting AC power from the outside. It is preferable that the processing apparatus flows out the lightning component introduced into the ground of the tuner through the antenna through the AC power input unit.

Hereinafter, with reference to the accompanying drawings, the configuration and operation of each of the preferred embodiments of the signal processing apparatus having a lightning protection function according to the present invention will be described as follows.

Fig. 2 is a block diagram of a preferred embodiment of a signal processing apparatus having a lightning protection function according to the present invention, which is composed of an attenuation section 40 and a signal processing section 42.

Referring to FIG. 2, the signal processor 42 inputs and processes a radio signal received from the outside through an antenna 62, and includes a tuner 58 having a ground 60 grounded to the chassis. In addition, the signal processor 42 inputs the DC power provided from the first terminal 54 of the attenuator 40 through the second terminal 56. At this time, the attenuation unit 40 has an AC power input unit 50 for inputting AC power from the outside, and converts the input AC power into a predetermined DC power having a desired level in the signal processing unit 20, and converts the converted AC power. The DC power supply is output to the second terminal 56 of the signal processor 42 through the first terminal 54.

According to the present invention, the AC power input unit 50 has a discharge gap having one side 70 connected to the ground 60 of the tuner 58 and the other side 72 connected to the point where the AC power is input from the outside. gap). At this time, each of the one side 70 and the other side 72 forming the discharge gap in the AC power input unit 50 may be formed in a sawtooth shape as shown in FIG. This is because when the lightning component flows in from the ground 60 of the tuner 58, the discharge is easy.

According to a preferred embodiment of the present invention which connects the ground 60 of the tuner 58 and one side 70 forming a discharge gap in the AC power input unit 50, as shown in FIG. 2, the signal processor The first connection line 62 connecting the second terminal 56, which receives the DC power supply from the first terminal 54 of the attenuator 40, to the ground 60 of the tuner 58, is provided at the shortest distance. The attenuator 40 has a second connection line 52 connecting the first terminal 54 and one side 70 of the discharge gap.

Therefore, when the lightning component flows into the tuner 58 through the antenna 62, the introduced lightning component flows from the ground 60 of the tuner 58 to the second terminal 56 through the first connection line 62. Is provided. At this time, the charges corresponding to the lightning component provided from the second terminal 56 of the signal processor 42 to the first terminal 54 are transferred to the AC power input unit 50 through the second connection line 52. Gathered at 70, it is discharged to the other side (72). Therefore, the lightning component discharged to the other side 72 may flow out to a portion (not shown) for providing AC power. Finally, by connecting the ground 60 of the tuner 58 to one side 70 of the discharge gap to the chassis grounded signal processor 62, the signal processing shown in FIG. 2 from the lightning component introduced through the antenna 62. The device can be protected.

Unlike in FIG. 2, according to another embodiment of the present invention, the ground 60 of the tuner 58 and one side 70 of the discharge gap may be connected to each other by a jump line. The configuration and operation of another embodiment according to the present invention will be described as follows with reference to the accompanying drawings.

Fig. 3 is a block diagram of another preferred embodiment of a signal processing apparatus having a lightning protection function according to the present invention, and is composed of an attenuation section 80 and a signal processing section 82.

The signal processing apparatus having the lightning protection function according to the present invention shown in FIG. 3 has a jump line 90 instead of having the first and second connecting lines 62 and 52 shown in FIG. The same configuration and the same operation as the signal processing apparatus shown in FIG. 2 are performed.

For example, the signal processor 82 shown in FIG. 3 includes a tuner 94 that inputs a radio signal received from the outside through the antenna 96 and has a ground 92 grounded to the chassis. In addition, the signal processor 82 inputs the DC power provided from the first terminal 86 of the attenuator 80 through the second terminal 88. At this time, the attenuation unit 80 has an AC power input unit 84 for inputting AC power from the outside, and converts the input AC power into a predetermined DC power having a desired level in the signal processing unit 82, and converts the converted AC power. The DC power supply is output to the second terminal 88 of the signal processor 82 through the first terminal 86.

The AC power input unit 84 shown in FIG. 3 is similar to the AC power input unit 50 shown in FIG. 2, in which AC power is input from one side 100 connected to the ground 92 of the tuner 94 and from the outside. It may be implemented as a discharge gap formed by the other side 102 is connected to the point. In this case, each of the one side 100 and the other side 102 forming the discharge gap may be formed in a sawtooth shape like the one side 70 and the other side 72 forming the discharge gap shown in FIG. 2.

According to another preferred embodiment of the present invention which connects one side 100 of the discharge gap to the ground 92 of the tuner 94 and the AC power input 84, the signal processing device shown in FIG. 3 is a tuner 94. One side 100 may be connected to the ground 92 and the discharge gap of the by a jump line (90).

Therefore, when the lightning component flows in through the antenna 96, the charges corresponding to the introduced lightning component flow through the jump line 90 from the ground 92 of the tuner 94 at the AC power input unit 84 through the discharge gap. Gathered on one side 100 to form a discharge to the other side (102). Therefore, the lightning component discharged to the other side 102 may flow out to a portion (not shown) for providing AC power. As a result, by connecting the ground 92 of the tuner 94 to one side 100 which forms a discharge gap in the chassis grounded signal processor 82, the lightning component introduced through the antenna 96 is shown in FIG. The signal processing device can be protected.

According to the present invention, the signal processor 42 or 82 shown in FIG. 2 or 3 may have a built-in attenuator 40 or 80.

For example, when the signal processing apparatus having the lightning protection function according to the present invention shown in FIG. 2 or 3 is an LCD television, while watching the LCD television or while the LCD television is standby, the antenna When the lightning component flows into the tuner 58 or 94 through the 62 or 96, the lightning component introduced into the ground 60 or 92 of the tuner 58 or 94 is discharged from the AC power input 50 or 84. It is leaked to the outside through the gap to prevent the destruction of the main components and the liquid crystal of the signal processor 42 or 82.

As described above, the signal processing apparatus having the lightning protection function according to the present invention has the effect of preventing the main components of the circuit from being destroyed by lightning.

Claims (6)

A signal processing device including a tuner for inputting a radio signal received from the outside through an antenna and having a signal processing unit grounded to the chassis and an AC power input unit for inputting AC power from the outside, And a lightning protection component flowing out to the ground of the tuner through the antenna through the AC power input unit. The method of claim 1, wherein the AC power input unit And a discharge gap formed at one side connected to the ground of the tuner and the other side connected to a point at which the AC power is input from the outside. The signal processing apparatus of claim 2, wherein each of the one side and the other side is formed in a sawtooth shape. The signal processing apparatus of claim 2, wherein the ground of the tuner and the one side forming the discharge gap are connected to each other by a jump line. The apparatus of claim 2, wherein the signal processing device converts the AC power input from the outside into a predetermined DC power, outputs the converted DC power to the signal processing unit through a first terminal, and has the AC power input unit. Has an attenuation section, The signal processor has a first connection line connecting the second terminal supplied with the DC power and the ground of the tuner to the shortest distance, And the attenuator has a second connection line connecting the first terminal and the AC power input unit. The signal processing apparatus according to claim 5, wherein the signal processing unit includes the attenuation unit.