KR101406973B1 - Transmitting and receiving apparatus for hdmi or vga signal with usb port - Google Patents

Abstract

The present invention provides a USB port for transmitting and receiving data through the WHDI technology and actively responding to the amount of data to be transmitted, and for performing remote wireless transmission of a control signal through a USB port together with video and audio signals. The present invention relates to a WHDI wireless transceiver for transmitting and receiving wireless signals.

Description

TECHNICAL FIELD [0001] The present invention relates to a WHDI wireless transmitting / receiving apparatus having a USB port and selectively transmitting and receiving an HDMI signal and a VGA signal,

The present invention relates to a wireless transceiver, and more particularly, to a wireless transceiver having a USB port for transmitting and receiving data through WHDI technology and actively responding to the amount of data to be transmitted, and for performing remote wireless transmission of a control signal through a USB port together with video and audio signals And a WHDI wireless transceiver for selectively transmitting and receiving an HDMI signal and a VGA signal.

Due to the development of the information and communication industry today, various information communication devices have been developed and rapidly spread, and the use environment of the information communication devices is rapidly changing. Especially, as the specifications of various IT devices are increased, the quality of the multimedia that can be processed is increasing, and even if the device for outputting and reproducing multimedia is excellent, if the quality of the interface for transmitting is low, So that a technology for transmitting high quality multimedia signals is also being developed.

In addition, as the use of multimedia increases in schools, offices, offices, conference rooms, etc., demand for various devices for transmitting video / audio data to TVs or projectors is steadily increasing. In order to maximize the usability and space utilization, Devices capable of transmitting and receiving data in a wireless manner without using the wireless communication device are being developed.

In recent years, with the advent of high-definition multimedia interface (HDMI) in which digital video and audio signals are simultaneously transmitted through a single cable, high-quality video / audio signals can be smoothly transmitted. However, There is still a limit of transmission distance of less than 10m and the cost of cable. There is still a device that does not support HDMI as a standard, so a wireless home digital interface transmitter (WHDI) It was difficult.

In particular, in the case of an electronic board in which the supply to the schools and academies is increasing in recent years, the operation signal of the electronic pen located on the blackboard is processed by a computer and interworked with the output image. However, There is a disadvantage in that it is not possible to use it or a separate cable must be connected.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an audio and VGA signal or an HDMI signal through a wireless communication, The present invention provides a WHDI wireless transceiver having a USB port and selectively transmitting and receiving an HDMI signal and a VGA signal.

It is still another object of the present invention to provide a wireless communication device, which has a USB port for optimizing data transmission by actively adjusting the compression ratio and the number of operating antennas according to the transmission capacity during high-quality data transmission, And a transmission / reception device.

In order to achieve the above object, the present invention provides a wireless transmitting and receiving apparatus for transmitting data and control signals according to WHDI technology, comprising: an audio terminal, a VGA terminal, and an HDMI terminal, A first control terminal unit having a USB terminal for inputting and outputting a USB control signal, a first conversion unit for converting an audio signal and a VGA video signal input through the first data terminal unit into digital data, An AV data compressing unit compressing the digital data converted through the AV data compressing unit to a set compression rate and not compressing the digital data input from the HDMI terminal; A first transmitting unit configured to transmit the USB control signal by the WHDI technology and configured with a plurality of antennas, But passed to the control terminal and the first receiving unit is configured with at least one or more antennas, the transmitting module comprises a first control unit for controlling the first converting unit and the AV data compression unit and a first transmitter and a first receiver; A second transmitter for receiving data and a USB control signal from the first transmitter and configured to include a plurality of antennas; a second transmitter for transmitting a USB control signal to the first receiver; and a second transmitter for receiving data received through the second transmitter A second conversion unit for converting an audio signal and a VGA video signal out of the decompressed data into an analog signal, and a second conversion unit having an audio terminal, a VGA terminal, and an HDMI terminal, A second data terminal unit for outputting the converted audio signal and the VGA video signal or the HDMI signal to the corresponding terminal through the second conversion unit and a USB terminal for outputting the USB control signal received from the second receiving unit, And a second control terminal unit for transmitting the control signal to the second transmission unit. . ≪ / RTI >

The first data terminal unit may further include a switching switch unit configured to selectively receive a signal from an audio terminal, a VGA terminal, and an HDMI terminal.

The transmission module may further include a virtual communication channel allocation unit that separates the transmission time of the USB control signal from the digital data transmitted through the first transmission unit.

The receiving module may further include a data verifying unit for measuring a state of the digital data received through the second receiving unit and a second receiving unit for generating a transmission amount control signal according to the verification result of the data verifying unit, The first control unit may be configured to adjust the compression rate of the AV data compression unit according to a transmission amount control signal received through the first reception unit.

At this time, the first controller may be configured to adjust the number of operating antennas of the first transmitter according to a transmission control signal received through the first receiver.

The transmitting module may include a test memory unit for storing predetermined audio and video data, and a control unit for receiving a transmission amount control signal through the first receiving unit after transmitting the data of the test memory unit through the first transmitting unit, And a performance test section for performing the test.

The receiving module may further include a power control unit for shutting off power when there is no data to be input through the second receiving unit for a predetermined time or more and a USB control signal input to the second control terminal unit.

The present invention can detect a transmission state due to an increase in data capacity and transmission distance during audio / video data transmission and actively reflect the transmission state, thereby realizing a high-quality video in an optimal state in real time without interruption.

Also, it is possible to send and receive incompressible control signals, which are separated from the audio / video data transmission, through the USB terminal, which is connected to the electronic board or the electronic pen, at schools or academies,

1 is a conceptual diagram showing an example in which the present invention is used,
2 is a block diagram illustrating a configuration of a transmission module according to a preferred embodiment of the present invention.
3 is a block diagram illustrating a configuration of a receiving module according to a preferred embodiment of the present invention.
4 is a block diagram illustrating a configuration of a transmission module according to another embodiment of the present invention.
5 is a block diagram illustrating a configuration of a receiving module according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a WHDI wireless transmitting / receiving apparatus having a USB port according to an embodiment of the present invention, which selects and transmits an HDMI signal and a VGA signal, will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conceptual diagram illustrating an example in which the present invention is used. In the present invention, data and control signals are transmitted using a WHDI technique, and the transmission module 100 and the reception module 200 transmit and receive video / And is configured to transmit and receive a control signal of an interface supporting the USB together.

For example, in the case where an interface such as an electronic pen or a mouse is used together with an image in a class room or a seminar room, the transmission module 100 may be a computer The receiving module 200 is connected to a USB interface such as a touch screen such as an electronic whiteboard 320 and an electronic pen 330 so that audio / video data output through the computer 310 is transmitted The computer 310 transmits the control signal to the receiving module 200 via the module 100 and outputs the control signal to the USB interface and the computer 310 through the screen and the speaker of the copyboard 320, Let's handle it.

 2 is a block diagram illustrating a configuration of a transmission module according to a preferred embodiment of the present invention. The transmission module 100 includes a first data terminal unit 110, a first control terminal unit 120, An AV data compression unit 140, a first transmission unit 150, a first reception unit 160, and a first control unit 170. The AV data compression unit 140,

The first data terminal unit 110 includes an audio terminal A, a VGA terminal V and an HDMI terminal H, and selectively receives audio and video signals. That is, in the case of the HDMI signal, since the audio signal and the video signal are combined, the audio signal and the VGA signal or the HDMI signal are selectively received, and only the audio signal or the VGA signal may be received.

The first control terminal unit 120 includes a USB terminal U to input and output a USB control signal and the first control terminal unit 120 of the transmission module 100 is typically connected to the computer 310.

The first conversion unit 130 converts an audio signal and a VGA video signal input through the first data terminal unit 110 into digital data, and converts the audio signal and the VGA video signal into digital data if the input signal is an HDMI signal. Since it is digitized, no conversion is performed.

The AV data compression unit 140 compresses the digital data converted by the first conversion unit 130 to a predetermined compression rate, and may have a compression rate of 0 (no compression) if necessary. That is, when the distance between the transmission module 100 and the reception module 200 is relatively short, since the signal strength is relatively high, there is no problem even if the compression is not performed or the compression ratio is relatively low. However, The signal strength is weakened. If the data transmission capacity is increased, the transmission is not performed smoothly. Therefore, the transmission capacity is reduced by compressing the data. In some cases, part of the data may be lost during compression.

The first transmission unit 150 transmits data output from the AV data compression unit 140 and a USB control signal input through the first control terminal unit 120 according to the WHDI technology. ). In FIG. 2, the first transmission unit 150 includes four antennas T, and the signal strength increases as the number of antennas T increases.

 The first receiving unit 160 receives the USB control signal and transmits the received USB control signal to the first control terminal unit 120 and includes at least one antenna T. In FIG. 2, the first receiving unit 160 includes a single antenna T as a preferred embodiment. Since the capacity of the control signal is much lower than that of the audio / video data, the number of antennas T of the first receiving unit 160 is relatively smaller than the number of antennas T of the first transmitting unit 150. In summary, in FIG. 2, the transmitting module 100 has a total of five antennas T, and four are used for transmission and one is used for receiving, respectively.

The first controller 170 receives power from the CPU of the transmitter module 100 and receives the power from the first converter 130 and the AV data compressor 140. The first transmitter 150 and the first receiver 150, (160).

3 is a block diagram illustrating a configuration of a receiving module according to a preferred embodiment of the present invention. The receiving module 200 has a configuration corresponding to the transmitting module 100, and includes a second receiving unit 260, A first control terminal unit 250, a decompression unit 240, a second conversion unit 230, a second control terminal unit 220, and a second control terminal unit 220.

The second receiving unit 260 receives data and a USB control signal from the first transmitting unit 150 and includes the same number of antennas T as the first transmitting unit 150. 3, the second receiving unit 260 includes four antennas T like the first transmitting unit 150 in the preferred embodiment of the present invention.

The second transmitting unit 250 is configured to transmit a USB control signal to the first receiving unit 160 and has the same number of antennas as the first receiving unit 160. In contrast to the transmission module 100, the receiving module 200 in FIG. 3 has a total of five antennas T, and four are used for reception and one is used for transmission.

The decompression unit 240 decompresses the data received through the second transmission unit 250 and releases the compression operation performed by the AV data compression unit 140. If the AV data compression unit 140 does not compress the data, the decompression operation is not performed.

The second conversion unit 230 is a digital-to-analog converter circuit and performs a function of converting an audio signal and a VGA video signal out of data decompressed through the decompression unit 240 into an analog signal. In other words, the audio signal and the VGA signal, which are analog signals, are temporarily converted into a digital signal for wireless transmission and the HDMI signal is digitized, so that a separate signal conversion operation is omitted.

The second data terminal unit 210 includes an audio terminal A, a VGA terminal V and an HDMI terminal H, and selectively outputs audio and video signals. That is, the audio signal and the VGA video signal or the HDMI signal converted through the second conversion unit 230 are output to the corresponding terminal, and only the audio signal or the VGA signal may be output in some cases.

The second control terminal unit 220 includes a USB terminal U to input / output a USB control signal. Specifically, the second control terminal unit 220 outputs a USB control signal received from the second receiving unit 260 or outputs an input USB control signal And transmits it to the second transmitter 250. A control signal, to which an electronic board, an electronic pen, a mouse or the like is connected and is input to the second control terminal unit 220, is processed by the computer 310 connected to the first control terminal unit 120.

FIG. 4 is a block diagram illustrating a configuration of a transmission module according to another embodiment of the present invention. FIG. 5 is a block diagram illustrating a configuration of a reception module according to another embodiment of the present invention. Additional configuration is added to the configuration. In the following description, the same components as those described with reference to Figs. 2 to 3 will not be described.

In the transmission module 100, the first data terminal unit 110 is configured to selectively receive signals from the audio terminal A, the VGA terminal V and the HDMI terminal H, And further includes a changeover switch unit 111. It is not a problem if a data input cable is selectively connected to the audio terminal A and the VGA terminal V or the HDMI terminal H but a data cable is connected to all terminals of the first data terminal unit 110 In particular, when different devices are connected to the VGA terminal (V) and the HDMI terminal (H), only a device connected to one of the two terminals can receive a signal in order to prevent mixed data from being input.

The transmission module 100 further includes a virtual communication channel allocation unit 151 that separates the transmission time of the USB control signal from the digital data transmitted through the first transmission unit 150. [ A mouse or an electronic pen, which is a human interface device (HID), is usually connected to the USB terminal to input / output a control signal, so that no loss should occur, unlike audio / video data in which data compression is performed if necessary.

If the control signal is transmitted at the same timing as when audio / video data is allowed to be allowed to be lost due to compression, data of the control signal is lost and a problem arises. Therefore, / Bidirectional virtual communication channel is assigned to the portion of the vertical synchronization time that exists when transmitting video data / video data so that the control signal is stably transmitted even if it is low speed but does not interfere with the audio / video data transmission.

The reception module 200 analyzes the signal strength transmitted from the transmission module 100 and transmits the data to the data verification unit 270 and the transmission control unit 270 so that the signal strength is low or data transmission is not smooth. 280).

The data verifying unit 270 performs a function of measuring the state of digital data received through the second receiving unit 260. The transmission controlling unit 280 analyzes the state of the digital data received through the second receiving unit 260, Generates a transmission control signal, and transmits the generated transmission control signal to the first receiver 160 through the second transmitter 250. The first controller 170 controls the compression rate of the AV data compressing unit 140 according to a transmission rate control signal received through the first receiver 160. The detailed transmission rate control value and the compression rate are set in advance.

That is, since the distance between the transmission module 100 and the reception module 200 becomes long and the signal strength becomes weak, or the audio / video data of a large capacity (high picture quality) is applied to the transmission module 100, The data verification unit 270 detects the data and transmits a transmission amount control signal to the transmission module 100 through the transmission control unit 280. The first control unit 170 receives the AV data compression The compression rate of the unit 140 is increased so that even if some data loss occurs, the capacity is reduced and smooth transmission is achieved.

In addition, the first controller 170 controls the number of operating antennas (T) of the first transmitter 150 according to the transmission control signal received through the first receiver 160 . That is, when the transmission capacity is small, one or two antennas T are operated, and the number of operating antennas T increases as the transmission capacity increases.

The transmission module 100 further includes a test memory unit 190 and a performance testing unit 180 so that a user can easily check the data transmission state between the transmission module 100 and the reception module 200 . Such a check of the data transmission state is a kind of performance test and can be used to verify the performance of the transmission module and the reception module after installation. To this end, the test memory unit 190 stores predetermined audio and video data for a data transmission test so that performance verification can be performed even if no data is input through the first data terminal unit 110. [

The performance testing unit 180 transmits data stored in the test memory unit 190 through the first transmission unit 150 and transmits the data to the data verification unit 270 and the transmission control unit 280 of the reception module 200 Receives the transmission amount control signal through the first receiving unit 160, reflects the transmission amount control signal, and outputs the data transmission / reception status so that the user can take action.

The receiving module 200 may include a power control unit 290 for shutting off the power when there is no data to be input through the second receiving unit 260 and a USB control signal input to the second control terminal unit 220 for a predetermined time, ) To save the power consumed and prevent unnecessary operation to extend the life of the device.

It is to be understood that the invention is not limited to the disclosed embodiment, but is capable of many modifications and variations within the scope of the appended claims. It is self-evident.

100: Transmission module 110: First data terminal part
111: switching switch unit 120: first control terminal unit
130: first conversion unit 140: AV data compression unit
150: first transmission unit 151: virtual communication channel assignment unit
160: first receiving unit 170: first control unit
180: performance test section 190: test memory section
200: receiving module 210: second data terminal part
220: second control terminal part 230: second conversion part
240: decompression unit 250: second transmission unit
260: second receiving unit 270: data verifying unit
280: transfer control unit 290: power control unit
310: computer 320: electronic blackboard
330: Electronic pen A: Audio terminal
V: VGA terminal H: HDMI terminal
U: USB terminal T: Antenna

Claims (7)

A wireless transceiver for transmitting data and control signals according to WHDI technology,
A first data terminal unit 110 having an audio terminal A, a VGA terminal V and an HDMI terminal H for selectively receiving audio / video signals, and a USB terminal U, A first conversion unit 130 for converting an audio signal and a VGA video signal input through the first data terminal unit 110 into digital data; An AV data compressing unit 140 compressing the digital data converted through the HDMI terminal 130 to a set compression rate and compressing the digital data input from the HDMI terminal H, A first transmission unit 150 configured to transmit data and a USB control signal input through the first control terminal unit 120 according to WHDI technology and configured with a plurality of antennas T, 1 control terminal unit 120, and at least one antenna T And a first control unit 170 for controlling the first conversion unit 130 and the AV data compression unit 140 and the first transmission unit 150 and the first reception unit 160 A transmission module (100);
A second receiving unit 260 receiving data and a USB control signal from the first transmitting unit 150 and configured with a plurality of antennas T and a second transmitting unit 260 transmitting a USB control signal to the first receiving unit 160. [ A decompression unit 240 for decompressing the compressed data when the data received through the second transmission unit 250 is decompressed, an audio signal and a VGA video signal of the decompressed data as an analog signal, And a VGA terminal (V) and an HDMI terminal (H), so that the audio signal converted through the second conversion unit 230 and the VGA video signal A second data terminal unit 210 for outputting an HDMI signal to the corresponding terminal and a USB terminal U for outputting a USB control signal received from the second receiving unit 260 or for outputting an input USB control signal to the second And a second control terminal unit (220) for transmitting the control signal to the transmitter unit (250). Receiving the HDMI signal and the VGA signal and transmitting and receiving the HDMI signal and the VGA signal.
The method according to claim 1,
The first data terminal unit 110 further includes a switching switch unit 111 configured to selectively receive a signal from the audio terminal A, the VGA terminal V, and the HDMI terminal H. [ WHDI wireless transceiver having a USB port for selecting and transmitting HDMI signals and VGA signals.
The method according to claim 1,
The transmission module 100 further includes a virtual communication channel allocation unit 151 for separating the transmission time of the USB control signal from the digital data transmitted through the first transmission unit 150. [ WHDI wireless transceiver for selecting and transmitting HDMI signals and VGA signals.
The method according to claim 1,
The receiving module 200 includes a data verifying unit 270 for measuring the state of the digital data received through the second receiving unit 260 and a receiving unit 260 for generating a transmission amount control signal according to the verification result of the data verifying unit 270 And a transmission control unit (280) for transmitting the data to the first receiving unit (160) through the second transmitting unit (250)
The first controller 170 is configured to adjust the compression rate of the AV data compressing unit 140 according to a transmission amount control signal received through the first receiver 160. WHDI wireless transceiver that selects and transmits VGA signals.
5. The method of claim 4,
The first controller 170 controls the number of operating antennas T of the first transmitter 150 according to a transmission control signal received through the first receiver 160. And transmits and receives the HDMI signal and the VGA signal selectively.
5. The method of claim 4,
The transmitting module 100 may include a test memory unit 190 storing predetermined audio and video data and a control unit 160 for transmitting data of the test memory unit 190 through the first transmitting unit 150 and the first receiving unit 160 And a performance testing unit 180 for receiving the transmission rate control signal through the USB port and outputting the data transmission / reception status. The WHDI wireless transmission / reception apparatus has a USB port and selects and transmits an HDMI signal and a VGA signal.
The method according to claim 1,
The receiving module 200 includes a power control unit 290 for shutting off power when there is no data input through the second receiving unit 260 and a USB control signal input to the second control terminal unit 220 for a predetermined time or longer Further comprising a USB port for selectively transmitting and receiving the HDMI signal and the VGA signal.

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