KR101254399B1 - Video transmission system of 60ghz frequency band having hdmi multi path - Google Patents

Abstract

The present invention relates to a wireless image transmission system of 60GHZ frequency band having HDMI multi-path for receiving images from a plurality of image source devices and transmitting them to a wireless image receiving apparatus.
In the wireless video transmission system of 60GHZ frequency band having HDMI multi-path according to the present invention, in the wireless video transmission system for wirelessly transmitting video data using the 60GHZ frequency band, HDMI ports respectively connected to a plurality of image source devices 200. Select the video source device 200 connected to any one of the HDMI port 120 of 120 to establish communication, and the video data transmitted from the video source device 200 is established as wireless data of the 60GHZ frequency band By converting and transmitting wirelessly, even if the video source device is changed, the inconvenience of having to replace the HDMI cable can be eliminated.

Description

Wireless video transmission system of 60kHz frequency band with HDMI multipath {VIDEO TRANSMISSION SYSTEM OF 60GHZ FREQUENCY BAND HAVING HDMI MULTI PATH}

The present invention relates to a wireless video transmission system of the 60GHZ frequency band, and more particularly, to a wireless 60GHZ frequency band having an HDMI multi-path for receiving images from a plurality of image source devices and transmitting the same to a wireless video receiving apparatus. An image transmission system.

The 60 GHz millimeter wave frequency band is a frequency band of 57 to 64 GHz (7 GHz wide), which is classified as 'FACS', a new frequency range that is divided into unlicensed bands that can be used without permission from radio stations. The millimeter wave band can achieve data rates of 3 to 5 Gbps using ultra-wide bands, and it has strong technical characteristics due to its strong straightness, high resistance to surrounding interference, high security, and easy frequency reuse. In addition, since the wavelength is short, various devices can be miniaturized and reduced in weight, and thus, as an optimal frequency band for high-speed wireless communication, it is recognized as a recent technology field suitable for supporting a home network and high-definition multimedia transmission and application services.

In order to transmit high definition (HD) -class high-definition video, which is the mainstream of the video market, by using existing wireless LAN (WLAN) or ultra-wideband (UWB) communication, it is necessary to transmit compared to the data size of the video. Speed is an issue, so you must compress and transfer the image and restore it to reproduce the transmitted image. At this time, if there are many changes between frames, image deterioration or crushing phenomenon occurs, which is an important dissatisfaction factor for consumers who are not satisfied with the expectation of high quality images. Currently, the transmission of full HD content uses a high definition multimedia interface (HDMI) (hereinafter, abbreviated as HDMI), which is mainly a wired interface method, and UWB technology for transmitting full HD content wirelessly. However, since data transmission speed is only 480Mbps at a short distance within 10m, it is difficult to realize high quality due to a problem caused by compression transmission.

On the other hand, in the 60GHz millimeter frequency band, it achieves a transmission speed of 3Gbps which is at least 6 times higher than that of the existing technology, and it is possible to transmit high-definition and high-definition screens without any compression technology when transmitting full HD quality high-definition screen. If full HD quality high-definition transmission technology is applied to general data transmission of portable multimedia device, it takes about 1 hour and 30 minutes to download one CD with 650MB capacity when using Bluetooth technology that is widely used. High speed communication is enough to download in 1-2 seconds. Therefore, 60GHz wireless transmission technology is an optimal frequency band for high-speed wireless personal area network (PAN) and is recently recognized as an optimal technology for supporting high-definition multimedia transmission and application services of home networks and indoor wireless PANs.

In today's homes and offices, HDMI wired cables are often used to transfer high-definition video between devices. To connect many video devices in homes and offices to high-definition video output devices at some distance, you need to use a relatively thick HDMI cable, which is both visually uncomfortable and inconvenient in connectivity. . The final goal of the home theater market is to increase consumer dignity by connecting all devices wirelessly except power, while maintaining the high quality and high sound quality. Therefore, the development of high-definition wireless video transmission technology is currently required in the home appliance and video market.

Meanwhile, one HDMI port is provided in a wireless image transmission system that receives an image from an image source device and transmits the image as a wireless signal having a 60 GHZ frequency band. That is, since the wireless video transmission system can receive video only from the HDMI port of one video source device, it is inconvenient to remove the HDMI port of the existing video source device connected to another video source device. have.

The present invention has been proposed to solve the problems of the conventional wireless image transmission system, and an object of the present invention is to have an HDMI multipath for receiving images from a plurality of image source devices and transmitting them wirelessly to a wireless image receiving apparatus. The present invention provides a wireless video transmission system in the 60GHZ frequency band.

In order to achieve the above object, a wireless image transmission system having a 60 GHZ frequency band having an HDMI multipath according to the present invention is a wireless image transmission system for wirelessly transmitting image data using a 60 GHZ frequency band, each of which includes a plurality of image source devices. Selecting an image source device connected to any one of the HDMI port connected to set the communication, and converts the video data transmitted from the video source device is set to wireless data of the 60GHZ frequency band for wireless transmission .

To this end, the wireless video transmission system includes an HDMI port connected to each of a plurality of video source devices; An HDMI switch for setting communication by selecting any one of an image source device connected to the HDMI port; A wireless transmitter for converting image data transmitted from an image source apparatus having communication set up according to the setting of the HDMI switch into wireless data of a 60 GHz band; And a CEC controller for controlling communication with the HDMI switch to establish communication with an image source device and providing image data transmitted from the image source device with communication to the wireless transmitter.

Here, the CEC control unit preferably assigns a priority to a plurality of video source devices connected to the HDMI port according to the order in which the video data is input in recent years, and sets the communication by selecting the video source device having the highest priority. Do.

In addition, when the communication is set according to the priority and the power of the video source device to which the image data is input is turned off, the CEC controller selects another video source device to which the next priority is assigned to establish communication.

The 60GHZ frequency band wireless video transmission system having an HDMI multipath according to the present invention receives images from a plurality of video source devices through a multipath, and wirelessly transmits them to a 60GHz band as high-definition video. Two or more video sources can be connected to the transmission system for use. Therefore, when the image source device of the conventional wireless image transmission system is changed, there is an effect of eliminating the inconvenience of having to separate and newly connect it.

1 is a network connection diagram of a wireless video transmission system of 60GHZ frequency band with HDMI multipath according to the present invention;
2 is a block diagram of a wireless video transmission system of a 60GHZ frequency band with HDMI multipath according to the present invention.

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

1 is a network connection diagram of a 60 GHz frequency band wireless video transmission system with HDMI multipath according to an embodiment of the present invention.

As shown in FIG. 1, the wireless image transmission system 100 having a 60 GHZ frequency band having an HDMI multipath according to the present invention receives an output target image from a plurality of image source devices 200 and outputs the target image. After the conversion to the wireless data, a wireless communication system for transmitting to the wireless image receiving system 300 connected to the image output device 400.

The image source device 200 is a device for transmitting high definition image data as an original to a wireless transmission system through an HDMI communication cable. The image source device 200 includes a camcorder, a smartphone, and an HDMI port 120. Various multimedia source devices, such as a set-top box, a DVD player.

The wireless image receiving system 300 receives the 60 GHz frequency band wireless data transmitted from the wireless image transmission system 100, restores the original image data, and then transmits it to the image output device 400 through an HDMI cable. Done.

The image output device 400 is an output device for receiving image data transmitted from the wireless image receiving system 300 and displaying the image on the screen. The image output device 400 is a multimedia device such as an AV device, a monitor, a DVD, a TV, and the like. It can be an output device.

The wireless image transmission system 100 receives high definition image data from the image source device 200, converts the high definition image data into wireless data of 60GHZ frequency band, and then wirelessly transmits the image to the wireless image receiving system 300. Since the configuration and operation of converting high definition image data into wireless data of 60 GHZ frequency band in the system 100 and transmitting the same follow a conventional system, a detailed description thereof will be omitted.

2 is a block diagram of a wireless video transmission system of a 60GHZ frequency band with HDMI multipath according to an embodiment of the present invention.

As shown in FIG. 2, the wireless image transmission system 100 according to the present invention includes an HDMI port 120 connected to a plurality of image source devices 200, the image source device 200, and an HDMI port 120. HDMI switch 130 to set up communication by selecting the connection and the high-definition transmitted from the video source device 200 to establish communication with the video source device 200 by controlling the HDMI switch 130 The CEC controller 110 providing the image data to the wireless transmitter 140 and the high-definition image data received through the HDMI port 120 under the control of the CEC controller 110 wirelessly in the 60GHZ frequency band. It includes a wireless transmission unit 140 for converting the data into wireless transmission.

The HDMI port 120 is provided with a plurality of HDMI ports 120 to allow a plurality of image source devices 200 to be connected through an HDMI cable. That is, the conventional wireless image transmission system is a system for only one image source device 200, and when another image source device 200 is used, an image to use the HDMI cable of the image source device 200 previously used. Although there is a disadvantage in that the source device 200 needs to be replaced with an HDMI cable, in the present invention, a plurality of HDMI ports 120 are provided in the wireless video transmission system 100 so as to connect a plurality of image source devices 200 to each other. It can be used to replace the connected video source device 200 without replacing the cable.

The HDMI switch 130 is a wireless image transmission system 100 by selecting any one of the plurality of image source device 200 of the image source device 200 to establish communication from the image source device 200 communication is set up It is a device that can receive high-definition image data. The HDMI switch 130 selects any one HDMI port 120 of the HDMI port 120 connected to the plurality of image source devices 200 under the control of the CEC controller 110 and the HDMI port 120 and Communication with the connected image source device 200 is established.

The wireless transmitter 140 converts the high-definition image data received from the HDMI port 120 to which the communication is established through the selection of the HDMI switch 130 as the wireless data of the 60GHZ frequency band under the control of the CEC controller 110. The radio is transmitted to the wireless video receiving system 300 by the conversion.

The CEC (Consumer Electronics Control) control unit 110 controls the HDMI switch 130 to establish communication between the image source device 200 and the HDMI port 120, and transmits from the image source device 200 in which communication is established. The high definition image data is transmitted to the wireless transmitter 140 to be controlled to be converted into wireless data of the 60GHZ frequency band.

The CEC controller 110 implements a multi-path function by selecting any one of the plurality of image source devices 200 connected through the HDMI port 120 to establish communication. Done. The selection of such an image source device 200 gives a high priority to the image source device 200 which has been input later, among the input information which has been multiplexed through the HDMI port 120, and thus has a high priority. Will establish communication with Each frame of the high-definition image data received from the corresponding image source device 200 is set to be wirelessly transmitted through the wireless transmitter 140, where the CEC controller 110 is previously used image source apparatus 200 ), And when the power source of the high priority image source device 200 is turned off, communication with the previous high priority image source device 200 is re-established to transmit a frame.

Meanwhile, the image source device 200 also sends an <Image View On> message to the image output device 400 and also sends an <Active Source> message. The <Active Source> message is sent only when it is possible to show the user the appropriate video on the source side. When the image output device 400, which is a sink device, is in a standby state due to the <Image View On> message, the <Image View On> message received in this state is stored in a buffer so that a correct input is selected. If this is impossible or no message is received, the video output device 400 sends a <Request Active Source> message to determine which device is the operation source.

The wireless image transmission system 100 according to the present invention having the above configuration selects the image source device 200 to which data is most recently input among the plurality of image source devices 200 connected through the HDMI port 120. The communication is set, and the frame of the high definition image data transmitted from the image source device 200 in which the communication is set is converted into wireless data in the 60 GHZ frequency band for wireless transmission. In this case, the previously used video source device 200 disconnects the connection, and when the power source of the high priority video source device 200 is turned off, reconnect the previous video source device 200 to this video source device. The video data transmitted from the 200 is converted into wireless data in the 60 GHZ frequency band for wireless transmission.

This process is repeated until all of the image source devices 200 are powered off or no image is input.

As described above, the wireless image transmission system 100 according to the present invention is connected to a plurality of image source devices 200 through a multipath, and selects a high priority image source device 200 to set communication and use the same. When the power source of the video source device 200 is turned off, communication with other video source devices 200 having the next priority can be set up, thereby eliminating the need to replace the HDMI cable according to the change of the video source device 200. Make sure

The wireless video transmission system of the 60GHZ frequency band having the HDMI multi-path according to the present invention is not limited to the above-described embodiment, and those skilled in the art to which the present invention pertains. Of course, various modifications and variations can be made within the equivalent scope of the claims to be described.

100: wireless video transmission system 110: CEC control unit
120: HDMI port 130: HDMI switch
140: wireless transmitter 200: video source device
300: wireless video receiving system 400: video output device

Claims (4)

delete delete An HDMI port 120 connected to each of the plurality of video source devices 200, an HDMI switch 130 for setting communication by selecting any one of the video source devices 200 connected to the HDMI port 120, and The wireless transmitter 140 converts the video data transmitted from the video source device 200 in which communication is set according to the setting of the HDMI switch 130 into wireless data of 60 GHZ frequency band, and wirelessly transmits the wireless data. ) To establish a communication with the image source device 200 and to transmit the image data transmitted from the image source device 200 in which the communication is established to the wireless transmitter 140, the wireless image transmission including the CEC controller 110. In the system,
The CEC control unit 110
Priority is given to the plurality of video source devices 200 connected to the HDMI port 120 according to the order in which video data has been recently inputted, and communication is established by selecting the video source device 200 having the highest priority. Wireless video transmission system, characterized in that. The method of claim 3, wherein
The CEC controller 110 selects another video source device 200 to which the next priority is given when communication is established according to the priority and the power of the video source device 200 to which the image data is input is turned off. Wireless video transmission system, characterized in that the setting.

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