KR101125621B1 - A cctv system using ultra slow speed powerline communication - Google Patents

Abstract

PURPOSE: A CCTV system for transmitting and receiving a camera control signal is provided to enable a CCTV system to reduce installation amount of communication lines. CONSTITUTION: A dedicated communication line(103) transmits and receives a video signal and a video control signal between a camera unit(101) and a monitoring and controlling unit(102). A power line(106) supplies operation power to the camera unit. A PLC(Power Line Communication) modem of a camera unit side(107) receives a camera control signal by a hyperslow PLC method. A PLC modem of a monitoring and controlling unit side(108) transmits the camera control signal.

Description

CCTV System Using Ultra Slow Speed Powerline Communication

According to the present invention, when the CCTV system is installed, among the communication line and the power line connecting the camera unit and the surveillance control unit, video-related signals use a communication-only communication line, and the camera pan, tilt, The camera control signal for controlling the zoom function is replaced by a power line using an ultra low speed power line communication (PLC) method, and thus, an ultra low speed power line communication method for omitting the installation of a camera control signal communication line. It relates to a CCTV system for transmitting and receiving a camera control signal using.

The CCTV system is largely divided into three parts: camera, monitoring and control, and communication and power line. The camera unit is composed of a camera for capturing an image again, and a PTZ with pan, tilt, and zoom functions that can be viewed while moving or enlarging the surveillance screen area of the camera up, down, left, or right. The monitoring and control unit (hereinafter referred to as the "monitoring control unit") controls the monitor to view the transmitted surveillance screen, the DVR (Digital Video Recorder) capable of continuously recording the surveillance screen, and the remote control camera PTZ. It consists of a controller and the like. The communication and power line unit includes a dedicated communication line for transmitting and receiving image signals and camera control signals, and a power line for supplying power to the camera and the PTZ.

1 is an exemplary view showing the configuration of the camera unit 101, the monitoring control unit 102 and the communication and power line unit 103 in the conventional CCTV system.

The camera unit 101 is a device for capturing an object to be monitored, and includes pans and tilts that allow the camera to capture an image and move or enlarge the monitoring screen area of the camera up, down, left, or right. It consists of PTZ which performs zoom function. The surveillance control unit 102 is composed of a monitor capable of viewing the surveillance screen transmitted from the camera unit 101, a DVR capable of continuously recording the surveillance screen, a controller for controlling a camera PTZ of a remote site, and the like. The communication and power line unit 103 is a video signal line 104 which is a dedicated communication line for transmitting the video signal of the camera unit 101 to the monitoring control unit 102 and the camera control signal of the monitoring control unit 102 to the camera. The control signal line 105 to be transmitted to the unit 101, and the power line 106 to supply power to the camera and the PTZ from the monitoring control unit 102.

On the other hand, in recent years, as the installation demand of CCTV system equipment is increased and wider, the distance between the camera unit side and the surveillance control unit side is getting longer. Therefore, as the installation volume of the communication and power line portion has been increased among the above components, measures to reduce the installation quantity have been required, and solutions have been proposed. As a countermeasure, the use of an RF camera and the use of an IP camera using the Internet are typical. However, both methods are inadequate for security in large apartments or for surveillance in small areas. RF communication is only possible in smooth areas without obstacles, and IP cameras are economically disadvantageous unless they are monitored from tens or hundreds of kilometers away. Therefore, many methods using the power line communication method have been proposed to minimize the installation quantity of the communication and power line.

CCTV systems using the power line communication methods presented so far have too many problems to be practical. Above all, communication noise, attenuation and power impedance of power line are the problems. Due to these problems, it is impossible to realize a perfect power line technology up to now. It is almost impossible to realize high speed communication of Mbps on a general power line rather than a dedicated communication line designed and manufactured only for communication. Even products that realize high-speed power line communication today are extremely short for the communication distance to be commercialized, and even if communication is made at the time of installation, if the load is changed on the power line, the impedance of the line may not be communicated, and the newly installed power When a large capacitive power load is connected, signals of carrier frequency and signal frequency of very high frequency power line communication are absorbed to the capacitive load side, and when the power load generating a lot of noise is connected, This is because the reliability of power line communication drops sharply.

Many technologies have been developed to solve the above problems, but the perfect technology has not yet been developed, and the power line communication modem in the case of applying these technologies to increase the reliability of power line communication is too expensive and has no economic feasibility. Will be. Therefore, the installation capacity of the communication and power line units connecting the camera unit side and the surveillance control unit side in the CCTV system, which is still wide area, has not been substantially reduced.

Republic of Korea Patent Publication 10-2009-0030584, 2009.03.25., Integrated monitoring system using power line communication. Republic of Korea Patent Publication 10-2009-0030201, 2009.03.24., PLC IP camera network system using a power line communication control method. Republic of Korea Patent Publication 10-2008-0073848, 2008.08.12., Substation security device using power line communication.

An object of the present invention, among the communication line and power line connecting the camera unit side and the surveillance control unit side of the CCTV system, video-related signals using a communication-only communication line, the pan (pan), tilt (Tilt), zoom of the camera The camera control signal for controlling the zoom function uses the ultra low speed power line communication (PLC) method, and the camera control signal using the ultra low speed power line communication method, which makes it possible to omit the installation of the camera control signal communication line. It is to implement a CCTV system to transmit and receive.

CCTV system for transmitting and receiving the camera control signal using the ultra low speed power line communication method according to the present invention for achieving the above object, the ultra low speed power line communication method for the connection line between the camera unit side and the monitoring control unit of the CCTV system A CCTV system for transmitting and receiving a camera control signal, comprising: a dedicated communication line for transmitting and receiving an image signal and an image control signal between the camera unit side and the surveillance control unit side; A power line for supplying operating power to the camera unit; It is installed on the camera side, the power line to receive the camera control signal including the pan, tilt, zoom (Zoom) function of the camera through the power line by the ultra low speed power line communication method A camera unit side power line modem connected to the camera; The power line is installed on the surveillance control unit and transmits a camera control signal including a pan, tilt, and zoom functions of the camera through the power line by an ultra low speed power line communication method. Surveillance control unit side connected to the power line modem is characterized in that it is configured to include.

According to the present invention, in the application of an ultra-low speed power line communication technology commercialized worldwide and its reliability is guaranteed in a CCTV system, the video-related signal of CCTV uses a dedicated communication line, and the camera control signal is By using the ultra-low speed power line communication technology to replace the power line to supply power instead of a dedicated communication line, it is possible to reduce the amount of installation of the communication and power line unit. In particular, the greater the number of cameras installed, the greater the economic benefits.

1 is an exemplary view showing the configuration of a camera unit, a monitoring control unit and a communication and power line in the conventional CCTV system.
Figure 2 is a control block diagram illustrating a CCTV system for transmitting and receiving camera control signals using the ultra low speed power line communication method of the embodiment of the present invention.
3 is a control diagram illustrating a power line modem of the monitoring control unit side of the CCTV system for transmitting and receiving camera control signals using the ultra low speed power line communication method of the present invention.
4 is a control diagram illustrating a camera unit side power line modem of a CCTV system that transmits and receives a camera control signal using an ultra low speed power line communication method according to an embodiment of the present invention.

The present invention relates to a communication and power line unit 103 connecting the camera unit side and the monitoring control unit in the CCTV system, the image-related signals using a dedicated communication line, the camera control signal is an ultra-low speed power line communication method (Ultra low speed power line communication method transmits data in synchronization with zero crossing of commercial power. When commercial power is 60Hz, data can be transmitted at speeds of 60, 120, 240, 360 bbs, etc.). In the power transmission conditions, the data transmission speed is in the range of up to several hundred bbs and the practical area is limited to less than 360bbs, whereas the speed of the high speed power line communication is performed at the Mbbs level, and the low speed power line communication is the home network system. It is used in the back light and transmits data at the transmission rate of tens to hundreds of Kbbs). By, to be able to omit the installation of the camera control signal communications line. It will be described in detail with the accompanying illustration as follows.

2 is an exemplary view showing the configuration of a CCTV system omitting the control signal line 105 of FIG. 1 using a power line communication method applied in the present invention.

After converting the camera control signal output from the monitoring control unit 102 to the power line communication signal using the power line communication modem 108 installed on the monitoring control unit side, it is loaded on the power line 106 and installed on the camera unit 101 side. By transmitting to the power line communication modem 107 to convert back to the camera control signal and input to the camera unit 101, it is possible to perform the conventional functions as shown in FIG.

3 shows the overall circuit configuration of converting a camera control signal output from the monitoring control unit 102 into a power line communication signal using the power line communication modem 108 installed at the monitoring control unit, and then transmitting it to the power line 106. It is a block diagram.

The camera control signal output from the monitoring control unit 102 is input to the power line communication modem 108 through a very short control signal line 105, and the camera control signal input to the power line communication modem 108 is the power line communication modem 108. After the conversion to the power line communication signal by the power transmission line 106 is transmitted to the power line communication modem 107 of the camera unit 101. Therefore, a block diagram of the power line communication modem 108 will be described here.

As described from the power line 106 side, the line coupler 206 is connected to the power line 106 to block the line voltage of the power line 106 and extract only data information, and is extracted by the line coupler 206. Filter and amplifier 210 for filtering and tuning amplifying the data at a specific frequency and transmitting the same to the central controller 200 through the serial communication interface 205, and connected to an output terminal of the filter and amplifier 210. A central controller 200 having a program capable of performing a purpose and control, a carrier controller 209 for outputting data information to a carrier signal under control of the central controller 200, and the carrier controller 209. A carrier amplifier 208 for voltage amplifying data information outputted from the < RTI ID = 0.0 >) < / RTI > and a carrier signal output from the carrier amplifier 208 to transmit a power signal to a line coupler 206 connected to a power line. It is provided to the amplifier 207.

And a switching power unit 201 for making a DC power source for driving the system by using an AC 86-260V voltage supplied from the power line 106 to supply power to the electronic circuit of the power line communication modem 108, and the center. A storage unit connected to the control unit 200 and configured as an epirom for preserving necessary data and programs specified in the event of a power failure, and a RAM for temporarily storing various data information, and serving as an auxiliary storage device of the central control unit 200. 204.

4 shows a camera control signal which is converted into a camera control signal through a power line communication modem 107 of the camera unit 101 by converting a camera control signal converted into a power line communication signal transmitted from the monitoring control unit 102 side. This is a block diagram showing the overall circuit configuration input to.

The camera control signal converted into the power line communication signal transmitted from the monitoring control unit 102 is converted into the camera control signal through the power line communication modem 107 of the camera unit 101, and the converted camera control signal is converted. It is input to the camera unit 101 through the short control signal line 105. The block diagram of the power line communication modem 107 is the same as that of FIG.

Although the present invention described above has been described with reference to one embodiment, the present invention is not limited thereto and modifications to such an extent that those skilled in the art can easily carry out the present invention are not limited thereto. It is obvious that it belongs to the technical idea.

101 ....... Camera part 102 ....... Monitoring part
103 ....... Communication and power lines 104 ....... Video signal lines
106 ....... Power line 107 ....... Camera side power line modem
108 ....... Power Line Modem of Surveillance Control Unit

Claims (1)

A CCTV system that transmits and receives a camera control signal using an ultra low speed power line communication method for a connection line between a camera side and a surveillance control unit of a CCTV system.
A dedicated communication line for transmitting and receiving an image signal and an image control signal between the camera unit side and the surveillance control unit side;
A power line for supplying operating power to the camera unit;
It is installed on the camera side, the power line to receive the camera control signal including the pan, tilt, zoom (Zoom) function of the camera through the power line by the ultra low speed power line communication method A camera unit side power line modem connected to the camera;
The power line is installed on the surveillance control unit and transmits a camera control signal including a pan, tilt, and zoom functions of the camera through the power line by an ultra low speed power line communication method. CCTV system for transmitting and receiving a camera control signal using an ultra-low speed power line communication method, characterized in that it comprises a power line modem connected to the monitoring control unit.

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