KR20100025155A - Surge protective apparatus for security camera - Google Patents

Abstract

PURPOSE: A surge protection device for a security camera is provided to block a surge by installing a coil fuse in a ground line and a signal line of a coaxial cable of the security camera. CONSTITUTION: A first coil fuse(LF1) and a second coil fuse(LF2) are installed in a ground line(GND) and a signal line(S) of a coaxial cable. A gas arrestor tube(GAT) is connected in parallel to the front ends of the first and second coil fuses. A coil(L), first and second resistors, and first and second zener diodes(ZD1,ZD2) are serially connected. The coil, the first and second resistors, and the first and second zener diodes are installed between the signal line and the ground line in the rear ends of the first and second coil fuses in parallel.

Description

Surge protective apparatus for security camera

The present invention relates to a surge protection device for a security camera, and more particularly, a coil fuse is installed in series on a signal line and a ground line of a coaxial cable connected to a security camera, and at the same time, the front end of the coil fuse between the signal line and the ground line. The gas arrester tube is connected in parallel, and at the rear end of the coil fuse, a coil connected in series with each other, two resistors and a zener diode are installed in parallel to discharge the overvoltage and overcurrent of multiple stages outdoors through discharge. Blocks surges flowing through coaxial cables such as cameras, and damages electronic devices such as monitors, TVs, cable modems, and set-top boxes (for cable TVs and satellite receivers) from surges induced through coaxial cables connected to the security camera. It is invented so that it can be prevented in advance.

In recent years, the number of Internet users using a security camera, a general home TV, especially a PC equipped with a high-priced digital TV and a cable modem is increasing rapidly.

However, such a security camera, a TV, a PC equipped with a cable modem, etc., by using integrated IC chips whose accessories are highly integrated, the expensive product itself is not available due to the overvoltage and overcurrent applied from the outside, in particular, lightning strikes. The situation is often caused by a great deal of damage.

For example, security cameras and monitors, as well as satellite dishes and satellite set-top boxes are connected by coaxial cable. If a security camera or satellite dish is hit by a lightning strike, the monitors and TVs via the coaxial cable connected to them, as well as monitors and TVs Surge is induced even to the back.

In addition, when watching terrestrial waves, cables must be protected from external antennas to the TV.

In addition, in the case of the cable modem, a lightning strike flows into the personal computer (PC) via a LAN cable to damage the PC itself.

Therefore, in order to protect the electronic products from such a lightning strike, lightning protection means are still mounted on coaxial cables connected to TVs and cable modems, including monitors connected to security cameras.

However, such a conventional lightning protection means must be carried out as a grounding task. In a complex urban area, the grounding itself is especially insufficient for installation of a separate grounding facility outdoors, and the grounding operation is difficult. If the efficiency of the ground is reduced, and if it is installed separately from the power ground already installed, there is a problem such as generating a noise by generating a potential difference between both grounds due to a ground loop phenomenon.

The present invention has been made to solve such a conventional problem, the coil fuse is installed in series on the signal line and ground line of the coaxial cable connected to the security camera, respectively, and at the front end of the coil fuse between the signal line and the ground line. The gas arrester tube is connected in parallel, and at the rear end of the coil fuse, the coil and two resistors and zener diodes connected in series are installed in parallel, thereby discharging the overvoltage and overcurrent of multiple stages to the outside through discharge. It can block surges flowing through the coaxial cable of the camera, and damage electronic devices such as monitors, TVs, cable modems, set-top boxes (for cable TV and satellite receivers), etc., from the surges induced through the coaxial cable connected to the security camera. Providing a surge protector for security cameras to prevent them from happening in advance This will help in that purpose.

The present invention for achieving the above object is, in the middle of the signal line and the ground line of the coaxial cable connected between the security camera and the monitor respectively installed in series a coil fuse for blocking impulse overcurrent, between the signal line and the ground line The front end of the coil fuse is connected in parallel with a gas arrester tube that discharges overvoltage primarily when a surge is introduced, and two resistance and clamping operations protect the noise eliminating coil and zener diode from overcurrent. Two zener diodes, which are converted to a voltage corresponding to the voltage, are connected in series to each other, and are installed in parallel between the signal line and the ground line at the rear end of the coil fuse.

As described above, according to the present invention, the coil fuses are installed in series on the signal line and the ground line of the coaxial cable connected to the security camera, and the gas arrester tube is parallel to the front end of the coil fuse between the signal line and the ground line. If a surge such as a lightning strike is introduced through a coaxial cable such as a security camera installed outdoors, a coil, two resistors, and zener diodes connected in series are installed in parallel at the rear end of the coil fuse. It can be blocked by discharging overvoltage and overcurrent, preventing electronic devices such as monitors, TVs, cable modems, cable TVs, and set-top boxes for satellite receivers from being surged through coaxial cables connected to security cameras. Not only can it prevent the noise in high frequency communication I and the like circuit group when applying this cable modem or the like is extremely useful inventions such as to provide a quick and clean than the communication speed and the connection environment for browsing.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 shows a circuit diagram of the apparatus of the present invention.

According to the present invention, the coil fuses LF1 and LF2 for blocking impulsive overcurrent are respectively installed in the middle of the signal line S and the ground line GND of the coaxial cable connected between the security camera and the monitor. In addition, between the signal line (S) and the ground line (GND), the front end of the coil fuse (LF1) (LF2) is connected in parallel to the gas arrester tube (GAT) for discharging the overvoltage primarily when the surge flows in , Two resistors (R1) (R2) to protect the noise canceling coil (L) and zener diodes (ZD1) (ZD2) from overcurrent, and two zener diodes that convert to the correct voltage for the equipment in use. ZD1 and ZD2 are connected in series to each other, and are installed in parallel between the signal line S and the ground line GND at the rear end of the coil fuses LF1 and LF2.

Referring to the effects of the surge protection device for a security camera of the present invention configured as described above are as follows.

First, the apparatus of the present invention has two coil fuses LF1, LF2, gas arrester tube GAT, and coil L on a signal line S and a ground line GND of a coaxial cable connected between a security camera and a monitor. When two surges (R1) (R2) and Zener diodes (ZD1) (ZD2) are installed in parallel and in parallel, they are discharged in multiple stages when a surge such as lightning strikes through the coaxial cable of a security camera installed outdoors. The main technology configuration is to prevent electronic devices such as monitors, TVs, cable modems, cable TVs, and set-top boxes for satellite receivers from being damaged by surges through coaxial cables connected to security cameras. do.

At this time, the gas arrestor tube GAT connected in parallel to the input line of the signal line S and the ground line GND of the coaxial cable discharges the overvoltage in the first step upon inflow of a surge. Gas Arrester Tube (GAT) has been adopted that can discharge instantaneous large capacity overvoltage in the range of about 90 kV to 2.5 kV.

In addition, the coil fuses LF1 and LF2 provided in series at the intermediate portions of the signal line S and the ground line GND of the coaxial cable are primarily subjected to an instantaneous high voltage surge by the gas arrester tube GAT. It acts as a kind of zener diode that damps impulsive overcurrents and lowers them to low potentials over the secondary.

Further, in parallel with the two resistors R1 and R2 and the zener diodes ZD1 and ZD2 at the rear ends of the coil fuses LF1 and LF2, the signal line S and the ground line GND are parallel to each other. Coil (L) connected to the noise component mixed with the electrical signal components introduced after the discharge and damping for the first and second through the gas arrester tube (GAT) and the coil fuse (LF1) (LF2). It eliminates the primary discharged instantaneous overvoltage surge down to a safe voltage level.

In addition, at a rear end of the coil fuses LF1 and LF2, the coil L and the two zener diodes ZD1 and ZD2 are connected in parallel between the signal line S and the ground line GND. The two resistors R1 and R2 are installed in series at the front and rear ends of the zener diodes ZD1 and ZD2 that are connected in series in the forward and reverse directions to each other, so that the zener diodes ZD1 It protects (ZD2) from over current.

Meanwhile, as described above, the zener diodes ZD1 and ZD2 connected in series in the forward and reverse directions with the resistors R1 and R2 connected in series are connected to the signal line S and the ground line GND. It performs the function of clamping the induced surge through the proper size to the equipment used in the rear stage.

By the way, in the above, a state in which resistors R1 and R2 are provided at the front and rear ends of the zener diodes ZD1 and ZD2 connected in series in the forward and reverse directions, but is not limited thereto. Accordingly, the resistors R1 and R2 may be removed, and only the coil L and the two zener diodes ZD1 and ZD2 may be configured.

At this time, the surge flowing through the coaxial cable is stabilized to a predetermined level through the first and second discharges at the front and the rear using gas arrester tube GAT and zener diodes ZD1 and ZD2. Although it may be reduced, since the overcurrent component included in the lightning remains, the present invention also removes the overcurrent component from the signal line S and the ground line GND in the middle of the signal line S and the ground line GND. Coil fuses LF1 and LF2 are mounted, respectively.

The surge protection device of the present invention configured as described above includes any one side of the coaxial cable connected between the security camera and the monitor, and is installed on any one side of the coaxial cable connected to the terminal of the cable TV and the cable modem subscriber, and the corresponding electronic device. It can protect against.

As described above, the surge component discharged first through the gas arrestor tube GAT is clamped (1V to 30V) with the remaining surge component sized to fit the device of the next stage through the two zener diodes ZD1 and ZD2. Later, since it is applied to an electronic device such as a monitor, a cable TV, and a terminal equipped with a cable modem, the electronic device can be protected from a surge.

Although the above-described embodiments have been described with respect to the most preferred embodiments of the present invention, it is not limited to the above embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention.

1 is a configuration circuit diagram of the apparatus of the present invention.

Explanation of symbols on the main parts of the drawings

S: signal line

GND: Ground Wire

LF1, LF2: Coil Fuse

GAT: Gas Arrestor Tube

L: coil

R1, R2: resistance

ZD1, ZD2: Zener Diode

Claims (1)

Coil fuses LF1 and LF2 for blocking impulsive overcurrent are respectively provided in series at the middle of the signal line S and the ground line GND of the coaxial cable connected between the security camera and the monitor, and the signal line S In front of the coil fuses LF1 and LF2 between the ground line GND and a gas arrester tube GAT for discharging the overvoltage primarily when a surge is introduced, the noise canceling coil L ) And two resistors (R1) (R2) to protect the zener diodes (ZD1) (ZD2) from overcurrent, and two zener diodes (ZD1) (ZD2) which convert the voltage to the correct voltage through the clamping operation. Surge protection device for a security camera, characterized in that installed in parallel between the signal line (S) and the ground line (GND) at the rear end of the coil fuse (LF1) (LF2) by connecting in series.

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