KR101973896B1 - Apparatus for transmitting video signal and power and method thereof - Google Patents

Abstract

The present invention relates to an apparatus for transmitting an image signal and power and a method thereof. The apparatus comprises: a communication unit communicating with a camera and a computer monitoring an image transmitted from the camera; a signal processing unit amplifying and outputting a signal received from the camera and the computer; and a control unit transmitting the power transmitted from the computer to the camera according to success or failure of handshaking between the camera and the computer.

Description

[0001] APPARATUS FOR TRANSMITTING VIDEO SIGNAL AND POWER AND METHOD THEREOF [0002]

The present invention relates to an apparatus and method for transmitting a video signal and a power source, and an apparatus and method for transmitting a video signal and a power source through a single cable without a separate power supply cable.

The camera system collects image information through the camera and the collected image information is transferred from the camera to the computer so that it can be monitored by a computer in the center. At this time, the camera is equipped with a cable for transmitting and receiving a video signal and a power cable for supplying power to the camera, which is often inconvenient to use. To overcome these problems, various technologies have been developed. Among them, Power over Camera Link (PoCL) is a technique of transmitting video signals and power together through a single cable. To use PoCL, you need to use a cable with PoCL support, and the camera and computer (Frame Grabber) must support PoCL.

1 is a diagram showing a conventional camera system 10 supporting PoCL.

Referring to FIG. 1, the camera 100 and the computer 110 support PoCL, and the cables 120 and 130 use PoCL cables. The power supplied from the computer 110 is transmitted to the camera 100 through the PoCL cables 120 and 130. The image information collected by the camera 100 is transmitted to the computer 110 through the PoCL cables 120 and 130 .

On the other hand, when the distance between the camera 100 and the computer 110 is long, the video signal transmitted and received between the camera 100 and the computer 110 and the power source are attenuated, And a computer 110, and a repeater amplifies and transmits the signal. At this time, since the conventional repeater does not support the connection for PoCL, a problem occurs that the power supplied from the computer 110 can not be transmitted to the camera 100. [

The present invention relates to a system capable of supplying power from a computer to a camera even when the distance between the camera and the computer is long.

The present invention also relates to an apparatus and method for transmitting a video signal and a power source between a camera and a computer using a repeater supporting PoCL.

The present invention relates to an image processing apparatus, comprising: a communication unit for communicating with a camera and a computer monitoring an image transmitted from the camera; A signal processor for amplifying and outputting a signal received from the camera and the computer; And a control unit for transmitting power from the computer to the camera in accordance with whether hand shaking has been successfully performed between the camera and the computer.

Here, the communication unit may communicate with the camera and the computer through a PoCL (Power over Camera Link) cable.

Further, the communication unit includes an interface connected to the camera and a cable for communicating with the computer, wherein the interface includes a plurality of pins, and the plurality of pins include a pin to which a DC voltage is applied and an inner shield ). ≪ / RTI >

Also, the communication unit may transmit a signal for handshaking using the pin to which the DC voltage is applied.

Further, the communication unit can communicate using a Low Voltage Differential Signaling (LVDS) signal.

According to another aspect of the present invention, there is provided a method of transmitting a video signal, the method comprising: transmitting a video signal received through a PoCL cable to a computer; And transmitting power from the computer to the camera through a PoCL cable according to whether or not handshaking between the camera and the computer is successful.

The present invention also relates to a camera comprising: a camera; A computer for monitoring an image transmitted from the camera; A handshaking unit connected between the camera and the computer and connected to the camera and the computer through a PoCL cable, for transmitting a video signal received from the camera to the computer, And a repeater for transmitting power from the computer to the camera in accordance with the success or failure.

The present invention can transmit the power transmitted from the computer through the PoCL cable in the direction of the camera even when a separate power supply cable for supplying power to the camera is not provided in case of communication between the camera, the repeater and the computer through the PoCL cable .

1 illustrates a conventional camera system supporting PoCL;
2 illustrates a PoCL-supported camera system in accordance with an embodiment of the present invention.
3 is a view showing a configuration of a repeater according to an embodiment of the present invention.
4 is a view for explaining an interface of a repeater according to an embodiment of the present invention;
5 is a flowchart illustrating an operation of a camera system supporting PoCL according to an embodiment of the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a diagram illustrating a PoCL-supported camera system 20 according to an embodiment of the present invention.

2, the camera system 20 of the present invention includes a camera 100, a repeater 200, and a computer 110, and the camera 100, the repeater 200, (Hereinafter, referred to as a 'PoCL cable').

The camera 100 may collect image information on the surrounding environment, transmit the image information to the computer 110, and operate according to the control information received from the computer 110.

The computer 110 monitors the image information received from the camera 100 and supplies power to the camera 100 through the PoCL cables 120 and 130. In addition, the computer 110 may transmit control information for operation of the camera 100 to the camera 100 in the direction. The operation between the computer 110 and the camera 100 or the repeater 200 is performed by a frame grabber (not shown) of the computer 110. Hereinafter, the operation of the computer 110 is controlled by the operation of the frame grabber .

The repeater 200 is provided between the camera 100 and the computer 110 and amplifies the signals and transmits the amplified signals to the camera 100 and the computer 110. For example, the image signal received from the camera 100 is amplified and transmitted to the computer 110, amplified from the computer 110, and transmitted to the camera 100. To this end, the repeater 200 supports PoCL bypass (Bypass).

3 is a diagram showing a configuration of a repeater 200 according to an embodiment of the present invention.

3, the repeater 200 of the present invention includes a communication unit 300, a signal processing unit 310, a storage unit 330, and a control unit 320.

The communication unit 300 is for communicating with the camera 100 and the computer 110 and specifically includes a wireless Internet unit (not shown), a mobile communication unit (not shown), a local communication unit (not shown), a wired communication unit May include all or a portion of < RTI ID = 0.0 > The wireless Internet accesses the wireless Internet to acquire or transmit data. The wireless Internet that can be accessed through the wireless Internet unit includes a wireless LAN (WLAN), a wireless broadband (WIBRO), a wireless interoperability for microwave access (WIMAX) Downlink Packet Access). The mobile communication unit can access and communicate with a mobile communication network according to various mobile communication standards such as 3rd Generation (3G), 3rd Generation Partnership Project (3GPP), and Long Term Evolution (LTE). The short-range communication unit is for short-distance communication, and includes Bluetooth, Radio Frequency Identification (RFID), Infrared Data Association (UDA), Ultra Wideband (UWB), ZigBee, Near Field Communication (NFC) Lt; / RTI > The wired communication unit may be an interface device that can be connected to other devices by wire, and may be configured to communicate through the PoCL cables 120 and 130 or a USB module that can communicate through a USB port.

The signal processing unit 310 amplifies and outputs the video signal received from the camera 100 and the power and control signals received from the computer 110 so that the camera 100 or the computer 110 outputs a video signal, So that it can receive a normal signal.

The storage unit 330 stores various data and applications. The storage unit 330 may include a random access memory (RAM), a flash memory, a ROM, an erasable programmable ROM (EPROM), an electronically erasable and programmable ROM (EEPROM) A removable disk, a removable disk, a memory card, a Universal Subscriber Identity Module (USIM), and the like, as well as a detachable form of storage such as a USB memory.

The control unit 320 controls the repeater 200 of the present invention such that the video signal is received from the camera 100 or the power signal is received from the computer 110 and amplified by the signal processing unit 310 and output.

4 is a view for explaining an interface of the repeater 200 according to an embodiment of the present invention.

The PoCL cables 120 and 130 of the present invention are constituted by 26 lines, and the plurality of pins included in the connectors of the PoCL cables 120 and 130 correspond to the respective lines. The interface of the repeater 200 to which the connectors of the PoCL cables 120 and 130 thus configured are connected includes a plurality of pins and a plurality of pins included in the connector of the PoCL cables 120 and 130 and a plurality of pins included in the interface of the repeater 200 The plurality of pins are connected to correspond to each other.

4, the PoCL_BASE 400, 410, 420, and 430 are pins for power supply, and X0 +, X0-, X1 +, X1-, X2 + X2-, X3 +, X3-, XCLK +, and XCLK- are pins for transmitting video signals. In addition, CC1 +, CC1-, CC2 +, CC2-, CC3 +, CC3-, CC4 + and CC4- are the pins for transmitting the camera control signal. SERTFG +, SERTFG-, SERTC + and SERTC- are pins for serial communication Pin. At this time, the pins 13 and 14 of the connector of the PoCL cable 120 are inner shielded to be connected to the ground, and the pins 1 and 26 of the connector of the PoCL cable 120 are connected to the PoCL_BASE pin 400, 410, 420, and 430, respectively.

4, a plurality of pins included in an interface to which a connector of the PoCL cable 120 for connecting the computer 110 and the repeater 200 are connected, a camera 100, and a repeater 200 It can be seen that the plurality of pins included in the interface to which the connector of the PoCL cable 120 for connection is connected differ in the arrangement of the pins for each function.

Meanwhile, the camera system 200 of the present invention transmits power to the camera 100 and simultaneously transmits video and control signals. At this time, LVDS (Low voltage differential signaling) method is used. In the LVDS method, two different voltages (+, -) are transmitted to the transmitter in a differential signaling method, and the receiver receives the signals by comparing them. The repeater 200 of the present invention also transmits an amplified differential signal to support signal transmission in the LVDS system.

4, when the power supplied from the computer 110 is transmitted to the camera 100, the PoCL_BASE pin 410 at the upper end of the interface of the repeater 200 connected to the computer 110 is connected to the first When the power supply signal is input, the second power supply signal is input to the PoCL_BASE pin 430 at the lower end. It is used simultaneously to supply higher current.

The PoCL_BASE pins 400, 410, 420, and 430 of the interface of the repeater 200 of the present invention are applied with a DC voltage to pins for power supply. For example, a voltage of 12V may be applied, and a voltage of 12V may be applied to the connector of the PoCL cable 120 connected to the PoCL_BASE pins 400, 410, 420, and 430 of the repeater 200 interface. The PoCL_BASE pins 410 and 430 of the interface of the repeater 200 connected to the computer 110 inside the repeater 200 are connected to the PoCL_BASE pins 400 and 420 of the interface of the repeater 200 connected to the camera 100, When the PoCL_BASE pin 410 located at the upper end of the interface of the repeater 200 connected to the computer 110 is connected to any one of the PoCL_BASE pins 400 and 420 of the interface of the repeater 200 connected to the camera 100, The PoCL_BASE pin 430 located at the lower end of the interface of the repeater 200 connected to the PoCL_BASE pin 110 and the PoCL_BASE pin 430 may be connected to other PoCL_BASE pins 400 and 420 that are not connected.

In addition, the interface PoCL_BASE pins 400, 410, 420, and 430 of the repeater 200 are used not only for power supply but also for handshaking between the camera 100 and the computer 110. In the handshaking, power is supplied from the computer 110 to the camera 100 after the handshaking is performed by communication in which the camera 100 and the computer 110 determine whether or not power is supplied to each other.

X0 +, X1-, X2 +, X2-, X3 +, X3-, X1-, X2-, X2-, X2-, X2-, X3-, and X3- are selected from the interface of the repeater 200 connected to the camera 100 when the video signal is transmitted from the camera 100 to the computer 110. [ , XCLK +, and XCLK- pins. The video signal input to the repeater 200 is amplified and output to the computer 110 through the X0 +, X0-, X1 +, X1-, X2 +, X2-, X3 +, X3-, XCLK +, and XCLK- do. CC1 +, CC2 +, CC2-, CC3 +, CC3-, CC4 +, and CC4 + at the interface of the repeater 200 connected to the computer 110 when the control signal is transmitted from the computer 110 to the camera 100, CC1-, CC2-, CC3 +, CC3-, CC4 +, and CC4- pins of the interface connected to the camera 100 are output.

The number of PoCL cables 120 and 130 used in the present invention can be additionally and optionally determined according to the bandwidth of the video signal for transmission between the camera 100 and the computer 110. [ For example, one between the camera 100 and the repeater 200, one between the repeater 200 and the computer 110, or a plurality of them. When a plurality of PoCL cables 120 and 130 are connected between the camera 100, the repeater 200 and the computer 110, one of the PoCL cables 120 is connected to the video cable, the control signal, (120), and the other cable (130) can be used as a cable through which only a video signal is transmitted. For example, the camera 100, the repeater 200, and the computer 110 are divided into a region for transmitting power, an image signal, and a control signal, and a region for transmitting only a video signal, and then a PoCL cable 120 Upon connection, power, video signals, and control signals are transmitted through the PoCL cable 120 as described above in the area for transmitting power, video signals, and control signals. Also, when a PoCL cable 130 is connected to an area for transmitting only a video signal, only a video signal is transmitted.

When a video signal and a power source are transmitted between the camera 100 and the computer 110 through a splitter (not shown) instead of the repeater 200, a splitter (not shown) The repeater 200 and the computer 110 can be applied equally or similarly to each other as described above.

5 is a flowchart showing the operation of the camera system 20 supporting PoCL according to an embodiment of the present invention.

5, when the camera 100, the repeater 200, and the computer 110 are connected (500) using the PoCL cables 120 and 130, the camera 100 and the computer 110 are connected to the repeater 200 And performs handshaking to determine whether power is supplied (510).

If the handshaking is successful (YES in 520), the camera 100 and the computer 110 send and receive a video signal and power through the repeater 200, and if the handshaking fails (NO in 520) And the computer 110 perform transmission / reception of a video signal without transmitting / receiving power through the repeater 200 (540).

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, and equivalents thereof.

100: camera 110: computer
120, 130: PoCL cable 200: Repeater

Claims (7)

An apparatus for transmitting a video signal and a power source located between a camera and a computer monitoring an image transmitted from the camera,
A communication unit connected to the camera and the computer through a Power over Camera Link (PoCL) cable;
A signal processor for amplifying and outputting a signal received from the camera and the computer;
And a controller for transmitting the power transmitted from the computer to the camera according to whether or not hand shaking has been successfully performed between the camera and the computer,
Wherein the communication unit includes an interface connected to a PoCL cable,
Wherein the interface includes a plurality of pins, the plurality of pins include a pin to which a DC voltage is applied and a pin that is inner shielded,
Wherein the pin to which the DC voltage is applied includes a plurality of pins connected to a PoCL cable connected to the camera and a plurality of pins connected to a PoCL cable connected to the computer.
delete delete The method according to claim 1,
Wherein the communication unit transmits a signal for handshaking using a pin to which the DC voltage is applied.
The method according to claim 1,
And the communication unit communicates using a Low Voltage Differential Signaling (LVDS) signal.
1. A method for transmitting a video signal and a power source, the method comprising the steps of:
Amplifying a video signal received through the PoCL cable from the camera and transmitting the amplified video signal to the computer through a communication unit;
Amplifying a power transmitted from the computer through a PoCL cable according to whether or not handshaking is successful between the camera and the computer, and transmitting the amplified power to the camera through the communication unit;
Wherein the communication unit includes an interface connected to a PoCL cable, the interface includes a plurality of pins, the plurality of pins include a pin to which a DC voltage is applied and a pin that is inner shielded,
Wherein the pin to which the DC voltage is applied includes a plurality of pins connected to a PoCL cable connected to the camera and a plurality of pins connected to a PoCL cable connected to the computer.
A video signal transmission system comprising:
A camera;
A computer for monitoring an image transmitted from the camera;
And a control unit connected between the camera and the computer and connected to the camera and the computer through a PoCL cable, amplifies the image signal received from the camera and transmits the amplified image signal to the computer, And a repeater for amplifying the power transmitted from the computer according to the success or failure and transmitting the amplified power to the camera,
Wherein the repeater includes a communication unit, the communication unit includes an interface connected to a PoCL cable, the interface includes a plurality of pins, and the plurality of pins are connected to a pin to which a DC voltage is applied and an inner shield, And a pin
Wherein the pin to which the DC voltage is applied includes a plurality of pins connected to a PoCL cable connected to the camera and a plurality of pins connected to a PoCL cable connected to the computer.

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