KR200419693Y1 - Optical Video Transmission System with Monitoring Means - Google Patents

Abstract

The present invention relates to an optical video transmission system capable of monitoring, an optical video transmitter for receiving a plurality of image signals and converting them into optical signals, and an optical video mux receiver for receiving the optical signals and converting them into electrical signals. In the optical video mux transmission and reception system, the optical video mux transmission unit is a multiplexer unit for selecting one or more of the plurality of video signals as a transmission side monitoring signal and a transmission side for outputting the transmission side monitoring signal to the display And an output port, wherein the optical video mux receiver includes a demultiplexer unit for selecting one or more of the plurality of video signals as a reception side monitoring signal, and a reception side output port for outputting the reception side monitoring signal to a display. It is characterized by further comprising.

Optical Video Transceiver, Monitoring Device

Description

Optical Video Transmission System with Monitoring Means

1 is a schematic diagram showing the concept of an optical video mux system capable of monitoring the image according to the present invention.

2 is a block diagram of an image transmitter of an optical video mux system capable of monitoring an image according to the present invention.

3 is a block diagram of an image receiving unit of an optical video mux system capable of image monitoring according to the present invention.

4 is a schematic diagram showing the concept of an optical video link system capable of image monitoring according to the present invention.

5 is a block diagram of an image transmitter of an optical video link capable of image monitoring according to the present invention.

6 is a block diagram of an optical video link receiver capable of monitoring an image according to the present invention.

The present invention relates to an optical video transmission and reception apparatus, and more particularly, to an optical video transmission and reception system that can easily monitor an image without interruption of video transmission and reception by installing a separate monitoring device in the image transmission and reception unit.

Existing optical video transmission system has to check coaxial cable directly connected from CCTV camera connected to optical video transmission system from equipment and input it to monitor to see the incoming image to optical receiver. Likewise, the system needs to disconnect the coaxial cable connected to the monitor from the optical video transmission system and connect the monitor to the video output port of the optical video transmission system to check the image. Therefore, there is a problem that it is inevitable to temporarily disconnect the image to check the image.

In addition, in the case of an optical video mux system that transmits and receives a plurality of images, the number of cables connected to the rear BNC terminal board is considerable, and it is very difficult and cumbersome to check each port by port, which may cause damage to the BNC port and cables. have.

Therefore, an object of the present invention is to solve the above problems by providing a video transmission and reception system to which a separate monitoring device is added to the image transmitter and receiver.

In order to solve the above problems, the optical video transmission and reception system according to the present invention receives an optical video mux transmission unit for receiving a plurality of video signals and converts them into optical signals and receives the optical signals and converts them into electrical signals An optical video transmitting / receiving system having an optical video mux receiving unit for outputting the same to a display device, wherein the optical video mux transmitting unit selects one or more of the video signals as a monitoring signal and the monitoring signal as a display. It further comprises a monitoring port for outputting.

An optical video transmission / reception system according to the present invention includes an optical video mux transmission unit for receiving a plurality of image signals, converting the same into an optical signal, and transmitting the optical video mux reception unit for receiving the optical signal and converting the optical signal into an electrical signal. In the transmission and reception system, the optical video receiver further comprises a demultiplexer for selecting one or more of the video signals as a monitoring signal and a monitoring port for outputting the monitoring signal to a display.

The video transmission / reception system according to the present invention includes the optical video mux transmitter and the optical video mux receiver.

According to another embodiment of the present invention, a video transmission and reception system includes an optical video link transmitter for receiving one image signal, converting the same into an optical signal, and an optical video link receiver for receiving the optical signal and converting it into an electrical signal. In the optical video transmission and reception system, the optical video link transmitter further comprises a feedback line for feeding back the video signal to the monitoring signal and a monitoring port for outputting the monitoring signal to the display.

According to another embodiment of the present invention, a video transmission and reception system includes an optical video link transmitter for receiving one image signal, converting the same into an optical signal, and an optical video link receiver for receiving the optical signal and converting it into an electrical signal. In the optical video transmission and reception system, the optical video link receiver further comprises a feedback line for feeding back an image signal to a monitoring signal and a monitoring port for outputting the monitoring signal to a display.

In the video system, the optical video link receiver receives a plurality of video signals from a plurality of optical video link transmitters, selects one or more of the video signals as a monitoring signal, and transmits the monitoring signal to the monitoring port. The main control unit may be further provided.

The video transmission / reception system according to the present invention includes an optical video link transmitter and an optical video link receiver.

Hereinafter, with reference to the drawings will be described an embodiment of the present invention.

1 is a conceptual diagram of an optical video mux capable of image monitoring. Referring to FIG. 1, a monitoring device may be added to a transmission unit that receives an image and converts the light into a transmission unit, and may monitor the image to be transmitted. The monitoring unit may be added to a reception unit that converts the light and then outputs the image signal. The output video signal can be monitored in advance.

2 is a block diagram of an optical video transmitter capable of monitoring an image according to an embodiment of the present invention. Referring to FIG. 2, the optical video transmitter according to the present invention includes an image receiver for receiving N analog images from a CCTV camera, an A / D converter for converting an image signal to digital, and converts the converted N image signals to all / optical signals. Multiplexer section for output to converter, Photo / electric converter for photoelectric conversion of electrical signal, Multiplexer for selecting one or more of the above video signals and outputting as monitoring signal, Main control unit (MCU) for controlling multiplexer And an I / O unit, and a D / A converter for converting the selected monitoring signal into an analog signal and a monitoring port for outputting the monitoring signal. The MCU is composed of CPU and memory as in the general configuration.If the image input from the above configuration is a digital signal, the above A / D converter is not necessary.If the monitoring display is a digital device, the D / A converter is also omitted. It is possible.

If the user selects the video to be monitored or preselected, the MCU sends an image selection signal to the multiplexer unit. The multiplexer unit selects one or more of the video signals as a monitoring signal and sends it to the buffer. The buffer receives the buffer output enable signal and transmits it through the backplane, and the D / A converter converts it to an analog signal and outputs the image to the monitoring port.

In this way, the MCU can control the multiplexer to monitor the video being transmitted while maintaining the current port.

3 is a block diagram of an optical video receiver capable of monitoring an image according to an embodiment of the present invention. Referring to FIG. 3, an optical video receiver according to the present invention includes an all / optical converter for converting an optical signal into an electrical signal, a D / A converter for converting an electrical signal into an analog signal, and one or more of an image signal. Demultiplex unit to select and output as monitoring signal, MCU and MCU I / O Unit to control demultiplex unit, D / A converter to convert selected monitoring signal to analog signal for display and output monitoring signal It has a monitoring port.

In the above configuration, when the image output display device is a digital device, the above D / A converter is not necessary. Also, when the monitoring display is a digital device, the D / A converter may be omitted.

Like the transmitter, the receiver can select the video to monitor or input in advance so that the MCU can control the multiplexer to monitor the video while maintaining the current port.

Optical video mux uses the CWDM (Coarse Wavelength Division Multiplexing) technology, which was developed to significantly reduce the cost of building an optical network in the urban area and double the data transmission rate. For example, up to 8 cards can be mounted. Thus, a set of optical video mux systems can accommodate up to 64 images, for example, and the monitoring port of the main control unit can select and monitor the transmit / receive card and the port of the card.

4 is a conceptual diagram of an optical video link to which an image monitoring apparatus is added. Unlike the input unit of the MUX receives a plurality of video signals and optically transmits them, the link input unit receives one video signal and optically transmits it. However, the link receiving unit may receive a plurality of video signals from the plurality of input units. Referring to FIG. 4, a monitoring device may be added to a transmission unit that receives an image and converts the light into a transmission unit to monitor an image to be transmitted. The monitoring unit may be added to a reception unit that converts the light and then outputs the image signal. The video signal output can be monitored.

In this configuration, if the user selects or inputs the video to be monitored in advance, the MCU controls the demultiplexer to monitor the video being transmitted while maintaining the current port.

In addition, the image transmission system of the optical video link is composed of an image receiver, an A / D converter, an image processor, an all-optical converter and an image monitor, and the image receiver system includes an image output unit, a D / A converter, and an image processor. It consists of optical / electric conversion unit, video monitor unit and MCU interface unit.

In an exemplary embodiment, a method of monitoring an image input through a plurality of video transceiver cards of an optical video mux through a main control unit (MCU) card is schematically illustrated.

4 is a schematic system configuration diagram of an optical video link system that can be monitored, and FIG. 5 is a block diagram thereof. 4 and 5, in the optical video link system, an optical video link transmitter installed in the field is fed back to a buffer through a feedback line and converted into an analog signal through a D / A converter. . The converted video signal is output to the display through the video monitoring port for monitoring.

The image is monitored and the image transmitted to the optical video link receiver is fed back and monitored.

6 is a block diagram of a receiver apparatus of an optical video link. Referring to FIG. 6, an optical signal transmitted from a transmitter is converted into an electrical signal, and then converted into an analog signal through an image processor and sent to an image output unit. The receiving apparatus of the optical video link is a collective self type, and a plurality of image receiving cards are controlled by one main control unit. When the image processor receives the control signal from the main control unit and selects an image, the selected image is sent to the buffer, and the received image is sent to the D / A converter through the backplane, and then the analog signal is received through the backplane. Is converted to a video monitoring port.

According to the present invention, it is possible to monitor the transmission and reception of the video signal without disconnection, and also to connect the monitoring port without the troublesome work of checking the coaxial cable for each port by connecting the monitoring port to the image of each channel by port operation. Verification is possible. Therefore, the monitoring port allows you to easily monitor video for all channels and ports without touching existing installed and connected coaxial cables.

In addition, the video signal can be easily and effectively monitored, and thus there is an advantage in that it is easy to operate and maintain. The number of coaxial cables of the devices installed in the video receiving center where the video is collected is considerable, and it is not possible to separate the installed coaxial cables to check the video, and this may cause damage of the coaxial cable and coaxial connector. . Therefore, the image collected in one system can be checked through one monitoring port, which can significantly reduce work time and waste of manpower during maintenance and check of the image.

Claims (7)

An optical video transmission / reception system comprising: an optical video mux transmission unit for receiving a plurality of video signals and converting the same into an optical signal and transmitting the optical video mux reception unit for receiving the optical signal and converting the optical signal into an electrical signal; The optical video mux transmission unit further comprises a multiplexer unit for selecting one or more of the video signal as a monitoring signal, and a monitoring port for outputting the monitoring signal to the display. An optical video transmission / reception system comprising: an optical video mux transmission unit for receiving a plurality of video signals and converting the same into an optical signal and transmitting the optical video mux reception unit for receiving the optical signal and converting the optical signal into an electrical signal; The optical video receiver further comprises a demultiplexer unit for selecting one or more of the video signals as a monitoring signal and a monitoring port for outputting the monitoring signal to a display. An optical video mux transmission and reception system comprising: an optical video mux transmission unit for receiving a plurality of video signals and converting the same into an optical signal and transmitting the optical video mux reception unit for receiving the optical signal and converting the same into an electrical signal and outputting the same; The optical video mux transmitter further includes a multiplexer unit for selecting one or more of the plurality of video signals as a transmitter monitoring signal, and a transmitter monitoring port for outputting the transmitter monitoring signal to a display. The optical video mux receiver further comprises a demultiplexer for selecting one or more of the plurality of video signals as a receiving side monitoring signal and a receiving side monitoring port for outputting the receiving side monitoring signal to a display. Optical video transmission and reception system. An optical video link transmitting and receiving system comprising: an optical video link transmitter for receiving an image signal and converting the same into an optical signal and transmitting the optical signal; And the optical video link transmitter further comprises a feedback line for feeding back the video signal to a monitoring signal and a monitoring port for outputting the monitoring signal to a display. An optical video link transmitting and receiving system comprising: an optical video link transmitter for receiving an image signal and converting the same into an optical signal and transmitting the optical signal; The optical video link receiver further includes a feedback line as a monitoring signal and a monitoring port for outputting the monitoring signal to a display. The method of claim 5, The optical video link receiving unit may further include a main control unit unit which receives an image signal from a plurality of optical video link transmitters, and selects one or more of the image signals as a monitoring signal and transmits the monitoring signal to the monitoring port. Optical video transmission and reception system. An optical video link transmitter for receiving an image signal, converting the same into an optical signal, and transmitting the optical video link; and an optical video link receiver for receiving the optical signal from one or more of the optical video link transmitters and converting the optical signal into an electrical signal and outputting the optical signal. In a transmission / reception system, The optical video link transmitter further includes a feedback line for feeding back the video signal to a transmitter monitoring signal and a transmitter monitoring port for outputting the transmitter monitoring signal to a display. The optical video link receiver further comprises a main control unit for receiving an image signal from one or more optical video link transmitters, and selecting one or more of the image signals as a monitoring signal and transmitting the selected signal to the monitoring port. Optical video transmission and reception system.

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