KR20190031889A - Sound system based on real-time synchronous ethernet and method thereof - Google Patents

Abstract

The present invention relates to a real-time synchronous Ethernet-based sound system, and more particularly, to a real-time synchronous Ethernet-based sound system having a sound source input unit for inputting a sound source through an audio source and a microphone; A distributor for transmitting the sound source signal to a plurality of speakers in a real time lossless manner; A synchronizing signal generator for generating a synchronizing signal to prevent delay of the sound source and generation of echoes in the plurality of speakers; And a synchronization signal input unit for compensating for the difference between the distributor signal and the speaker output signal through a synchronization signal generated by the synchronization signal generation unit.

Description

[0001] The present invention relates to a real-time synchronous Ethernet based sound system and method,

The present invention relates to a real-time synchronous Ethernet-based sound system and method, and more particularly, to a real-time synchronous Ethernet-based sound system and method without sound source delay and echo of a terminal speaker.

Network Time Protocol (NTP) Time Synchronization The audio signal synchronization method through the server sends the time to the client by calculating the error range according to the distance in standard time referring to the reference (reference) and the distance (stratum) However, there is a problem in that the delay of the sound source of the terminal speaker and the echo occur when the system is applied to a system for real time audio transmission.

In order to solve the above problems, an object of the present invention is to provide a real-time synchronous Ethernet based sound system and method for preventing sound source delay and echo occurrence of speakers by performing audio streaming synchronization through GPS and PTP (Precision Time Protocol) There is.

The real-time synchronous Ethernet-based sound system of the present invention for achieving the same purpose as the singing unit includes a sound source input unit for inputting a sound source through an audio source and a microphone; A distributor for transmitting the sound source signal to a plurality of speakers in a real time lossless manner; A synchronizing signal generator for generating a synchronizing signal to prevent delay of the sound source and generation of echoes in the plurality of speakers; And a synchronization signal input unit for compensating for the difference between the distributor signal and the speaker output signal through a synchronization signal generated by the synchronization signal generation unit.

The audio source may be any one of a radio, a CD player, an MP3 player, a DVD player, and a game machine.

The divider includes an ADC for converting a sound source, which is an analog signal, into a digital signal; An Ethernet AVB that transmits the converted sound source digital signal as an AVB (Audio Video Bridge) protocol packet and transmits in real time lossless mode; An MUX for distributing the sound source received through the Ethernet AVB to a plurality of channels and transmitting the divided sound sources to a plurality of speakers; And a controller for controlling the ADC, the Ethernet AVB, and the MUX.

And the plurality of loudspeakers are installed in buildings separated from each other inside the building.

The synchronization signal generating unit generates a synchronization signal through PTP and GPS by delaying the sound source and generating an echo of a plurality of loudspeakers installed in buildings separated from each other inside the building.

The PTP generates a synchronization signal to a plurality of speakers installed in a building, and the GSP generates a synchronization signal to a plurality of speakers installed in buildings separated from each other.

The synchronization signal input unit compensates for the time difference of the sound source of the distributor and the speaker and inputs the compensated sound source time difference to the control unit.

According to another aspect of the present invention, there is provided a real-time synchronous Ethernet-based acoustic method comprising: inputting a sound source to a sound source input unit; Converting a sound source, which is an analog signal, into a digital signal; Transmitting the converted sound source digital signal through an Ethernet AVB in a real time lossless manner; Distributing a sound source received through the Ethernet AVB to a plurality of channels through a MUX and delivering the sound source to a plurality of speakers; Generating a synchronization signal through a synchronization signal generator to prevent delay of a sound source and generation of echoes in a plurality of speakers installed in buildings separated from each other; And compensating a signal difference between a distributor signal and a speaker output signal difference through a synchronizing signal input unit through a synchronizing clock generated by the synchronizing signal generating unit.

Wherein the synchronization signal generator comprises: a PTP for generating a synchronization signal to a plurality of speakers installed in a building; And a GSP for generating a synchronization signal to a plurality of speakers installed in buildings separated from each other.

As described above, according to the present invention, it is possible to prevent a sound source delay and echo generated from a plurality of speakers installed in buildings and buildings separated from each other by generating a synchronization signal through GPS and PTP, PA (Public Address) system.

1 is a block diagram illustrating a real-time synchronous Ethernet based acoustic system in accordance with the present invention.
2 is a flowchart illustrating a real-time synchronous Ethernet-based acoustic method according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Hereinafter, a real-time synchronous Ethernet-based sound system and method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating a real-time synchronous Ethernet based acoustic system in accordance with the present invention.

1, the real-time synchronous Ethernet based acoustic system of the present invention includes a sound source input unit 10, a distributor 20, a speaker 30, a synchronizing signal generating unit 40, and a synchronizing signal input unit 50 .

The sound source input unit 10 inputs a sound source through an audio source such as a radio, a CD player, an MP3 player, a DVD player, or a game machine, and a microphone, but is not limited thereto.

The distributor 20 transmits a sound source signal in a real time lossless manner to a plurality of speakers based on an Ethernet AVB (Audio Video Bridge) standard.

The distributor 20 includes an ADC 21 for converting a sound source, which is an analog signal, into a digital signal, an Ethernet AVB 22 for transmitting the converted sound source digital signal in an AVB (Audio Video Bridge) A MUX 23 for distributing sound sources received through the Ethernet AVB 22 to a plurality of channels and delivering the signals to a plurality of speakers 30; And a control unit 24 for controlling the control unit 24.

The Ethernet AVB 22 converts the sound source data received through the communication protocol for delivering a predetermined size of Ethernet frame at a predetermined time interval to a format and outputs the converted sound source data. Therefore, the detailed description will be omitted.

The loudspeakers 30 may be installed in a plurality of buildings in buildings or in buildings separated from each other.

The synchronization signal generator 40 generates a synchronization signal through the PTP 41 and the GPS 42 to prevent delay of the sound source signal and echo of a plurality of speakers 30 that are separated from each other.

In this case, the PTP 41 can not use a GPS clock in the case of a small cell installed in a building, and a plurality of speakers 30 (30, 30) installed in the building using IEEE 1588 Precision Time Protocol (PTP) And the GSP 42 generates a synchronization signal to a plurality of speakers 30 installed in buildings which are separated from each other regardless of the distance.

The synchronization signal input unit 50 compensates the difference between the distributor 20 signal and the speaker 30 output signal through the synchronous clock generated by the synchronizing signal generator 40 with the processor software, The delay of the sound source and the occurrence of echo can be prevented.

That is, in the present invention, when a sound source is transmitted to a plurality of speakers 30 installed in buildings and separated from each other through the Ethernet AVB 22, the sound source delay and echo generation are performed by the PTP 41 And the GPS 42 to thereby provide a sound source service in the same time zone.

As described above, the real-time synchronous Ethernet based sound system of the present invention can be applied to a PA (Public Address, Public Address) system installed in schools, public broadcasting facilities, and the like.

2 is a flowchart illustrating a real-time synchronous Ethernet-based acoustic method according to the present invention.

Referring to FIG. 2, the real-time synchronous Ethernet-based sound method of the present invention first inputs sound sources to a sound source input unit through an audio source such as a radio, a CD player, an MP3 player, a DVD player,

Subsequently, the sound source which is an analog signal is converted into a digital signal through the ADC 21 (S200).

Subsequently, the converted sound source digital signal is transmitted through the Ethernet AVB 22 in a real-time lossless manner (S300).

Then, the sound source received through the Ethernet AVB 22 is distributed to the plurality of speakers 30 through the MUX 23 (S400).

Next, in order to prevent a sound source delay and echo of a plurality of loudspeakers 30 installed in buildings separated from each other inside the building, a synchronization signal is generated through the PTP 41 and the GPS 42 of the synchronization signal generator 40, (S500).

Next, the difference between the distributor 20 signal and the output signal of the speaker 30 is compensated for by the processor software in the synchronizing signal input unit 50 through the synchronizing clock generated in the synchronizing signal generating unit 40 (S600) .

Accordingly, it is possible to provide the sound source service of the same time period by preventing the delay of the sound source and the generation of the echo when transmitting the sound source through the Ethernet AVB (22) to the plurality of speakers (30) installed in buildings separated from each other.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

10: sound source input unit 20: distributor
21: ADC 22: Ethernet AVB
23: MUX 24:
30: Speaker 40: Sync signal generator
41: PTP 42: GPS
50: Sync signal input part

Claims (9)

A sound source input unit for inputting a sound source through an audio source and a microphone;
A distributor for transmitting the sound source signal to a plurality of speakers in a real time lossless manner;
A synchronizing signal generator for generating a synchronizing signal to prevent delay of the sound source and generation of echoes in the plurality of speakers; And
And a synchronizing signal input unit for compensating for the difference between the distributor signal and the speaker output signal through a synchronizing signal generated by the synchronizing signal generating unit. The method according to claim 1,
Wherein the audio source is one of a radio, a CD player, an MP3 player, a DVD player, and a game machine. The method according to claim 1,
Wherein the distributor comprises:
An ADC for converting a sound source, which is an analog signal, into a digital signal;
An Ethernet AVB that transmits the converted sound source digital signal as an AVB (Audio Video Bridge) protocol packet and transmits in real time lossless mode;
An MUX for distributing the sound source received through the Ethernet AVB to a plurality of channels and transmitting the divided sound sources to a plurality of speakers; And
And a controller for controlling the ADC, the Ethernet AVB, and the MUX. The method according to claim 1,
Wherein the plurality of loudspeakers are installed in buildings separated from each other inside the building. The method according to claim 1,
Wherein the synchronization signal generator generates a synchronization signal through PTP and GPS by delaying the sound source and generating an echo of a plurality of speakers installed in buildings separated from each other inside the building. 6. The method of claim 5,
The PTP generates a synchronization signal to a plurality of speakers installed in a building,
Wherein the GSP generates a synchronous signal to a plurality of speakers installed in buildings separated from each other. The method according to claim 1,
Wherein the synchronizing signal input unit compensates for the time difference of the sound source of the distributor and the speaker and inputs the compensated sound signal to the control unit. Inputting a sound source to a sound source input unit;
Converting a sound source, which is an analog signal, into a digital signal;
Transmitting the converted sound source digital signal through an Ethernet AVB in a real time lossless manner;
Distributing a sound source received through the Ethernet AVB to a plurality of channels through a MUX and delivering the sound source to a plurality of speakers;
Generating a synchronization signal through a synchronization signal generator to prevent delay of a sound source and generation of echoes in a plurality of speakers installed in buildings separated from each other; And
And compensating for a difference between a divider signal and a speaker output signal through a synchronizing clock generated by the synchronizing signal generating unit in a synchronizing signal input unit. 9. The method of claim 8,
Wherein the synchronizing signal generator comprises:
A PTP for generating a synchronization signal to a plurality of speakers installed in a building; And
And a GSP for generating a synchronization signal to a plurality of speakers installed in buildings separated from each other.

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