CN207067968U - A kind of I2S signal transmission systems - Google Patents

Abstract

The utility model belongs to field of signal transmissions, there is provided a kind of I2S signal transmission systems；The utility model is by the way that including dispensing device, the first USB port, USB transmission line, the second USB port and reception device, reception device includes transmission recovery module；Dispensing device sends the first I2S signals, first I2S signals are transmitted to reception device via the first USB port, USB transmission line and the second USB port and decay to the 2nd I2S signals successively, and the transmission recovery module in reception device is forwarded to the 2nd I2S signals, synchronization process or waveform recover to generate the 3rd I2S signals；Wherein, the 3rd information that the 3rd I2S signals carry is identical with the first information that the first I2S signals carry；Therefore reduce the cost of I2S signal transmission systems and reduce the distorted signals in transmitting procedure.

Description

A kind of I2S signal transmission systems

Technical field

The utility model belongs to field of signal transmissions, more particularly to a kind of I2S signal transmission systems.

Background technology

Conventionally, as ((Inter-IC Sound, integrated circuit built-in audio bus) signal is high frequency to I2S Square-wave signal, easy distortion when transmitting over long distances, therefore when needing transmission I2S signals over long distances, transmitting terminal first turns I2S signals It is changed to Bluetooth signal or audio analog signals, after receiving terminal receives Bluetooth signal or audio analog signals, then bluetooth is believed Number or audio analog signals be reduced to I2S signals.Because transmitting terminal and receiving terminal are required to configure chromacoder, so as to I2S signal transmission systems cost height is result in, and can cause signal different degrees of during chromacoder conversion signal Distortion.

Therefore, there is chromacoder and result in I2S signal transmission systems cost height and transmitting procedure in prior art In distorted signals the problem of.

Utility model content

The utility model provides a kind of I2S signal transmission systems, it is intended to solves the I2S signals present in prior art and passes Defeated system cost is high and transmitting procedure in distorted signals the problem of.

The utility model is achieved in that a kind of I2S signal transmission systems, and the I2S signal transmission systems include hair Device, the first USB port, USB transmission line, the second USB port and reception device are sent, the reception device includes transmission and recovered Module；

The dispensing device, the input/output terminal of first USB port, the USB transmission line, the 2nd USB ends The input/output terminal of mouth and the input of the transmission recovery module in the reception device are sequentially connected；

The dispensing device sends the first I2S signals, and the first I2S signals are successively via first USB port, institute State USB transmission line and second USB port transmits to the reception device and decays to the 2nd I2S signals, the reception The transmission recovery module in device is forwarded to the 2nd I2S signals, synchronization process or waveform recover to generate the 3rd I2S signals；Wherein, the first information phase that the 3rd information that the 3rd I2S signals carry carries with the first I2S signals Together.

The beneficial effect that technical scheme provided by the utility model is brought is：It was found from above-mentioned the utility model, due to I2S Signal transmission system includes dispensing device, the first USB port, USB transmission line, the second USB port and reception device, receives dress Put including transmitting recovery module；Dispensing device sends the first I2S signals, and the first I2S signals are successively via the first USB port, USB Transmission line and the second USB port transmit to reception device and decay to the 2nd I2S signals, and the transmission in reception device recovers mould Block is forwarded to the 2nd I2S signals, synchronization process or waveform recover to generate the 3rd I2S signals；Wherein, the 3rd I2S believes Number carry the 3rd information it is identical with the first information that the first I2S signals carry；Therefore reduce the cost of I2S signal transmission systems And reduce the distorted signals in transmitting procedure.

Brief description of the drawings

, below will be to needed for embodiment description in order to illustrate more clearly of the technical scheme in the embodiment of the utility model The accompanying drawing to be used is briefly described, it should be apparent that, drawings in the following description are only some realities of the present utility model Example is applied, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to these accompanying drawings Obtain other accompanying drawings.

Fig. 1 is a kind of function structure chart for the I2S signal transmission systems that the utility model embodiment provides；

Fig. 2 is a kind of modular structure that the I2S signal transmission systems that the utility model embodiment provides transmit recovery module Figure；

Fig. 3 is another module knot that the I2S signal transmission systems that the utility model embodiment provides transmit recovery module Composition；

Fig. 4 is another module knot that the I2S signal transmission systems that the utility model embodiment provides transmit recovery module Composition；

Fig. 5 is a kind of exemplary circuit of the short circuit module in the I2S signal transmission systems that the utility model embodiment provides Structure chart；

Fig. 6 is a kind of exemplary circuit of the buffer module in the I2S signal transmission systems that the utility model embodiment provides Structure chart；

Fig. 7 is a kind of example of the waveform recovery module in the I2S signal transmission systems that the utility model embodiment provides Circuit structure diagram；

Fig. 8 is a kind of example electricity of the USB3.0 ports in the I2S signal transmission systems that the utility model embodiment provides Line structure figure；

Fig. 9 is a kind of exemplary circuit structure chart for the I2S signal transmission systems that the utility model embodiment provides；

Figure 10 is another exemplary circuit structure chart for the I2S signal transmission systems that the utility model embodiment provides；

Figure 11 is another exemplary circuit structure chart for the I2S signal transmission systems that the utility model embodiment provides；

Figure 12 is another exemplary circuit structure chart for the I2S signal transmission systems that the utility model embodiment provides.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining The utility model, it is not used to limit the utility model.

Fig. 1 shows the modular structure for the I2S signal transmission systems that the utility model embodiment provides, for the ease of saying It is bright, the part related to the utility model embodiment is illustrate only, details are as follows：

A kind of I2S signal transmission systems it include dispensing device 01, the first USB port 02, USB transmission line 03, the 2nd USB Port 04 and reception device 05, reception device 05 include transmission recovery module 051.

Wherein, dispensing device 01, the input/output terminal of the first USB port 02, USB transmission line 03, second USB port 04 The input of transmission recovery module 051 in input/output terminal and reception device 05 is sequentially connected.

In above-mentioned I2S signal transmission systems, dispensing device 01 send the first I2S signals, the first I2S signals successively via First USB port 02, the USB port 04 of USB transmission line 03 and second transmit to reception device 05 and decay to the 2nd I2S letters Number, the transmission recovery module 051 in reception device 05 is forwarded to the 2nd I2S signals, synchronization process or waveform recover with Generate the 3rd I2S signals；Wherein, the first information phase that the 3rd information that the 3rd I2S signals carry carries with the first I2S signals Together.

When the 2nd I2S signals are synchronous and undistorted, transmission recovery module 051 is the first short circuit module；First short circuit mould Block is forwarded to the 2nd I2S signals to generate the 3rd I2S signals.

As shown in Fig. 2 when the 2nd I2S signals are asynchronous and undistorted, transmission recovery module 051 includes the first buffering mould The short circuit module 0512 of block 0511 and second；The output end of first buffer module 0511 and the input of the second short circuit module 0512 connect Connect；First buffer module synchronizes processing to the 2nd I2S signals, and the second short circuit module is believed the 2nd I2S after synchronization process Number forwarded to generate the 3rd I2S signals.

As shown in figure 3, when the 2nd I2S signals synchronization and distortion, transmission recovery module 051 includes the 3rd short circuit module 0513 and first waveform recovery module 0514；The output end of 3rd short circuit module 0513 is defeated with first waveform recovery module 0514 Enter end connection；First short circuit module forwards to the 2nd I2S signals, and first waveform recovery module is to the 2nd I2S after forwarding Signal carries out waveform and recovered to generate the 3rd I2S signals.

As shown in figure 4, when the 2nd I2S signals are asynchronous and during distortion, transmission recovery module 051 includes the second buffer module 0515 and the second waveform recovery module 0516；The output end of second buffer module 0515 is defeated with the second waveform recovery module 0516 Enter end connection；Second buffer module synchronizes processing to the 2nd I2S signals, after the second waveform recovery module is to synchronization process 2nd I2S signals carry out waveform and recovered to generate the 3rd I2S signals.

The circuit structure of first short circuit module, the second short circuit module 0512 and the 3rd short circuit module 0513 is identical, such as Fig. 5 Shown, short circuit module includes first resistor R1, second resistance R2,3rd resistor R3 and the 4th resistance R4.

First resistor R1 first end is the first input end of short circuit module, and first resistor R1 the second end is short circuit module The first output end, second resistance R2 first end is the second input of short circuit module, and second resistance R2 the second end is short Second output end of connection module, 3rd resistor R3 first end are the 3rd input of short circuit module, the second of 3rd resistor R3 Hold the 3rd output end for short circuit module, the 4th resistance R4 first end is the 4th input of short circuit module, the 4th resistance R4 The second end be short circuit module the 4th output end.

4th input of the first input end of short circuit module to short circuit module forms the input of short circuit module, short circuit mould First output end of block forms the output end of short circuit module to the 4th output end of short circuit module.

First buffer module 0511 is identical with the circuit structure of the second buffer module 0515, as shown in fig. 6, buffer module bag Include the first electric capacity C1, the second electric capacity C2, the 3rd electric capacity C3, the 4th electric capacity C4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7 and the 8th resistance R8.

5th resistance R5 first end is the first input end of buffer module, the 5th resistance R5 the second end and the first electric capacity C1 first end is the first output end of buffer module, and the 6th resistance R6 first end is the first input end of buffer module, the Six resistance R6 the second end and the second electric capacity C2 first end be buffer module the first output end, the 7th resistance R7 first end For the first input end of buffer module, the 7th resistance R7 the second end and the 3rd electric capacity C3 first end are the first of buffer module Output end, the 8th resistance R8 first end are the first input end of buffer module, the 8th resistance R8 the second end and the 4th electric capacity C4 first end be buffer module the first output end, the first electric capacity C1 the second end, the second electric capacity C2 the second end, the 3rd electricity Appearance C3 the second end and the 4th electric capacity C4 the second end with being connected to power supply altogether.

The first input end of buffer module forms the input of buffer module to the 4th input of buffer module, buffers mould 4th output end of the first output end of block to buffer module forms the output end of buffer module.

First waveform recovery module 0514 is identical with the circuit structure of the second waveform recovery module 0516, as shown in fig. 7, ripple Shape recovery module include the first triode Q1, the second triode Q2, the 3rd triode Q3, the 4th triode Q4, the 9th resistance R9, Tenth resistance R10, the 11st resistance R11, the 12nd resistance R12, the 13rd resistance R13, the 14th resistance R14, the 15th electricity Hinder R15 and the 16th resistance R16.

The first input end of first triode Q1 transmitting extremely waveform recovery module, the first triode Q1 colelctor electrode and 9th resistance R9 first end is the first output end of waveform recovery module, the first triode Q1 base stage and the tenth resistance R10 First end connection, the second input of the second triode Q2 transmitting extremely waveform recovery module, the second triode Q2 collection Electrode and the 11st resistance R11 first end are the second output end of waveform recovery module, the second triode Q2 base stage and the 12 resistance R12 first end connection, the 3rd input of the 3rd triode Q3 transmitting extremely waveform recovery module, the three or three Pole pipe Q3 colelctor electrode and the 13rd resistance R13 first end be waveform recovery module the 3rd output end, the 3rd triode Q3 Base stage be connected with the 14th resistance R14 first end, the 4th triode Q4 transmitting extremely waveform recovery module it is the 4th defeated Enter end, the 4th triode Q4 colelctor electrode and the 4th output end that the 15th resistance R15 first end is waveform recovery module, the Four triode Q4 base stage is connected with the 16th resistance R16 first end, the 9th resistance R9 the second end, the tenth resistance R10 Second end, the 11st resistance R11 the second end, the 12nd resistance R12 the second end, the 13rd resistance R13 the second end, the tenth Second end at four resistance R14 the second end, the 15th resistance R15 the second end and the 16th resistance R16 with the first power supply Connection.

The first input end of waveform recovery module to the 4th input of waveform recovery module forms waveform recovery module Input, the 4th output end of the first output end to the waveform recovery module of waveform recovery module form the defeated of waveform recovery module Go out end.

First USB port 02 is identical with the circuit structure of the second USB port 04.

As shown in figure 8, the power end VBUS of USB3.0 ports is connected with second source, the USB2.0 data of USB3.0 ports Negative pole end D- is the first input/output terminal of USB3.0 ports, and the USB2.0 data positive terminals D+ of USB3.0 ports is USB3.0 ends Second input/output terminal of mouth, the high speed of USB3.0 ports receive the 3rd input that data negative pole end SSRX- is USB3.0 ports Output end, the high speed of USB3.0 ports receive the 4th input/output terminal that data positive terminal SSRX+ is USB3.0 ports, USB3.0 The high speed of port sends the 5th input/output terminal that data negative pole end SSTX- is USB3.0 ports, the high speed hair of USB3.0 ports Send the 6th input/output terminal that data positive terminal SSTX+ is USB3.0 ports, the earth terminal GND and USB3.0 ends of USB3.0 ports The feedback signal earth terminal GND_DRAIN of mouth with being connected to power supply altogether.

3rd input/output terminal of USB3.0 ports to the 6th input/output terminal of USB3.0 ports collectively forms USB3.0 The input/output terminal of port.

In specific implementation, the USB port of dispensing device 01 can connect the first USB port 02 to realize I2S long range Transmission, USB2.0 USB flash disk can also be connected.

The I2S signal transmission systems shown in Fig. 9 are described further below in conjunction with operation principle：

Dispensing device 01 sends the first I2S signals, and the first I2S signals include I2S_MCL1, I2S_BCLK1, I2S_ LRCLK1 and I2S_SD1, the first I2S signals are successively via the first USB port 02, the USB port of USB transmission line 03 and second 04 transmits to reception device 05 and decays to the 2nd I2S signals, and the 2nd I2S signals include I2S_MCL2, I2S_BCLK2, I2S_ LRCLK2 and I2S_SD2, because the 2nd I2S signals are synchronous and undistorted, the first resistor R1 in reception device 05 is to I2S_ MCL2 is forwarded to generate I2S_MCL3, and the second resistance R2 in reception device 05 is forwarded to I2S_BCLK2 to generate I2S_BCLK3, the 3rd resistor R3 in reception device 05 are forwarded to I2S_LRCLK2 to generate I2S_LRCLK3, receive dress The 4th resistance R4 set to 0 in 5 is forwarded to I2S_SD2 to generate I2S_SD3；I2S_MCL3、I2S_BCLK3、I2S_ LRCLK3 and I2S_SD3 collectively constitutes the 3rd I2S signals；Wherein, the 3rd information and the first I2S that the 3rd I2S signals carry The first information that signal carries is identical.

The I2S signal transmission systems shown in Figure 10 are described further below in conjunction with operation principle：

Dispensing device 01 sends the first I2S signals, and the first I2S signals include I2S_MCL1, I2S_BCLK1, I2S_ LRCLK1 and I2S_SD1, the first I2S signals are successively via the first USB port 02, the USB port of USB transmission line 03 and second 04 transmits to reception device 05 and decays to the 2nd I2S signals, and the 2nd I2S signals include I2S_MCL2, I2S_BCLK2, I2S_ LRCLK2 and I2S_SD2, because the 2nd I2S signals are asynchronous and undistorted, the 5th resistance R5 and the first electric capacity C1 are to I2S_ MCL2 is cached, and the 6th resistance R6 and the second electric capacity C2 cache to I2S_BCLK2, the 7th resistance R7 and the 3rd electric capacity C3 I2S_LRCLK2 is cached, the 8th resistance R8 and the 4th electric capacity C4 cache to I2S_SD2, to realize the after caching The synchronization of two I2S signals, first resistor R1 are forwarded to the I2S_MCL2 after caching to generate I2S_MCL3, second resistance R2 I2S_BCLK2 after caching is forwarded to generate I2S_BCLK3,3rd resistor R3 is carried out to the I2S_LRCLK2 after caching To generate I2S_LRCLK3, the 4th resistance R4 is forwarded to the I2S_SD2 after caching to generate I2S_SD3 for forwarding；I2S_ MCL3, I2S_BCLK3, I2S_LRCLK3 and I2S_SD3 collectively constitute the 3rd I2S signals；Wherein, the 3rd I2S signals carry The 3rd information it is identical with the first information that the first I2S signals carry.

The I2S signal transmission systems shown in Figure 11 are described further below in conjunction with operation principle：

Dispensing device 01 sends the first I2S signals, and the first I2S signals include I2S_MCL1, I2S_BCLK1, I2S_ LRCLK1 and I2S_SD1, the first I2S signals are successively via the first USB port 02, the USB port of USB transmission line 03 and second 04 transmits to reception device 05 and decays to the 2nd I2S signals, and the 2nd I2S signals include I2S_MCL2, I2S_BCLK2, I2S_ LRCLK2 and I2S_SD2, due to the 2nd I2S signals synchronization and distortion, second resistance R2 forwards to I2S_BCLK2, the Three resistance R3 forward to I2S_LRCLK2, and the 4th resistance R4 forwards to I2S_SD2, after the first triode Q1 is to forwarding I2S_MCL2 carry out waveform and recover to generate I2S_MCL3, the second triode Q2 carries out waveform to the I2S_BCLK2 after forwarding Recover to generate I2S_BCLK3, the 3rd triode Q3 carries out waveform to the I2S_LRCLK2 after forwarding and recovered to generate I2S_ LRCLK3, the 4th triode Q4 carry out waveform to the I2S_SD2 after forwarding and recovered to generate I2S_SD3, I2S_MCL3, I2S_ BCLK3, I2S_LRCLK3 and I2S_SD3 collectively constitute the 3rd I2S signals；Wherein, the 3rd information that the 3rd I2S signals carry It is identical with the first information that the first I2S signals carry.

The I2S signal transmission systems shown in Figure 12 are described further below in conjunction with operation principle：

Dispensing device 01 sends the first I2S signals, and the first I2S signals include I2S_MCL1, I2S_BCLK1, I2S_ LRCLK1 and I2S_SD1, the first I2S signals are successively via the first USB port 02, the USB port of USB transmission line 03 and second 04 transmits to reception device 05 and decays to the 2nd I2S signals, and the 2nd I2S signals include I2S_MCL2, I2S_BCLK2, I2S_ LRCLK2 and I2S_SD2, because the 2nd I2S signals are asynchronous and distortion, the 5th resistance R5 and the first electric capacity C1 are to I2S_ MCL2 is cached, and the 6th resistance R6 and the second electric capacity C2 cache to I2S_BCLK2, the 7th resistance R7 and the 3rd electric capacity C3 I2S_LRCLK2 is cached, the 8th resistance R8 and the 4th electric capacity C4 cache to I2S_SD2, to realize the after caching The synchronization of two I2S signals, the first triode Q1 carry out waveform to the I2S_MCL2 after caching and recovered to generate I2S_MCL3, and second Triode Q2 carries out waveform to the I2S_BCLK2 after caching and recovered to generate I2S_BCLK3, after the 3rd triode Q3 is to caching I2S_LRCLK2 carries out waveform and recovered to generate I2S_LRCLK3, and the 4th triode Q4 carries out waveform to the I2S_SD2 after caching Recover to generate I2S_SD3, I2S_MCL3, I2S_BCLK3, I2S_LRCLK3 and I2S_SD3 collectively constitute the 3rd I2S letters Number；Wherein, the 3rd information that the 3rd I2S signals carry is identical with the 3rd information that the first I2S signals carry.

The 2nd I2S signals after caching can be realized by adjusting the RC real constants of cache module Zhong Mei roads buffer circuit Synchronization.

In summary, in the utility model embodiment, because I2S signal transmission systems include dispensing device, the first USB Port, USB transmission line, the second USB port and reception device, reception device include transmission recovery module；Dispensing device is sent First I2S signals, the first I2S signals are transmitted to reception via the first USB port, USB transmission line and the second USB port successively Device simultaneously decays to the 2nd I2S signals, and the transmission recovery module in reception device is forwarded to the 2nd I2S signals, be synchronous Processing or waveform recover to generate the 3rd I2S signals；Wherein, the 3rd information that the 3rd I2S signals carry is taken with the first I2S signals The first information of band is identical；Therefore reduce the cost of I2S signal transmission systems and reduce the distorted signals in transmitting procedure.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (9)

1. a kind of I2S signal transmission systems, it is characterised in that it includes dispensing device, the first USB port, USB transmission line, Two USB ports and reception device, the reception device include transmission recovery module；

The dispensing device, the input/output terminal of first USB port, the USB transmission line, second USB port The input of the transmission recovery module in input/output terminal and the reception device is sequentially connected；

The dispensing device sends the first I2S signals, and the first I2S signals are successively via first USB port, described USB transmission line and second USB port transmit to the reception device and decay to the 2nd I2S signals, described to receive dress The transmission recovery module in putting is forwarded to the 2nd I2S signals, synchronization process or waveform recover to generate the 3rd I2S signals；Wherein, the first information phase that the 3rd information that the 3rd I2S signals carry carries with the first I2S signals Together.

2. I2S signal transmission systems as claimed in claim 1, it is characterised in that when the 2nd I2S signals are synchronous and do not lose When true, the transmission recovery module is short circuit module；

The short circuit module is forwarded to the 2nd I2S signals to generate the 3rd I2S signals.

3. I2S signal transmission systems as claimed in claim 1, it is characterised in that when the 2nd I2S signals are asynchronous and not During distortion, the transmission recovery module includes buffer module and short circuit module；

The output end of the buffer module is connected with the input of the short circuit module；

The buffer module synchronizes processing to the 2nd I2S signals, and the short circuit module is to described in after synchronization process 2nd I2S signals are forwarded to generate the 3rd I2S signals.

4. I2S signal transmission systems as claimed in claim 1, it is characterised in that when the 2nd I2S signals synchronization and distortion When, the transmission recovery module includes short circuit module and waveform recovery module；

The output end of the short circuit module is connected with the input of the waveform recovery module；

The short circuit module forwards to the 2nd I2S signals, and the waveform recovery module is to described second after forwarding I2S signals carry out waveform and recovered to generate the 3rd I2S signals.

5. I2S signal transmission systems as claimed in claim 1, it is characterised in that when the 2nd I2S signals are asynchronous and lose When true, the transmission recovery module includes buffer module and waveform recovery module；

The output end of the buffer module is connected with the input of the waveform recovery module；

The buffer module synchronizes processing to the 2nd I2S signals, after the waveform recovery module is to synchronization process The 2nd I2S signals carry out waveform and recovered to generate the 3rd I2S signals.

6. the I2S signal transmission systems as described in any one of claim 2 to 4, it is characterised in that the short circuit module includes the One resistance, second resistance, 3rd resistor and the 4th resistance；

The first end of the first resistor is the first input end of the short circuit module, and the second end of the first resistor is described First output end of short circuit module, the first end of the second resistance are the second input of the short circuit module, described second Second end of resistance is the second output end of the short circuit module, and the first end of the 3rd resistor is the of the short circuit module Three inputs, the second end of the 3rd resistor are the 3rd output end of the short circuit module, the first end of the 4th resistance For the 4th input of the short circuit module, the second end of the 4th resistance is the 4th output end of the short circuit module；

4th input of the first input end of the short circuit module to the short circuit module forms the input of the short circuit module End, the first output end of the short circuit module form the output of the short circuit module to the 4th output end of the short circuit module End.

7. the I2S signal transmission systems as described in any one of claim 3 or 5, it is characterised in that the buffer module includes the One electric capacity, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, the 5th resistance, the 6th resistance, the 7th resistance and the 8th resistance；

The first end of 5th resistance be the buffer module first input end, the second end and first of the 5th resistance The first end of electric capacity is the first output end of the buffer module, and the first end of the 6th resistance is the of the buffer module One input, the second end of the 6th resistance and the first end of the second electric capacity be the buffer module the first output end, institute The first end for stating the 7th resistance is the first input end of the buffer module, the second end of the 7th resistance and the 3rd electric capacity First end is the first output end of the buffer module, and the first end of the 8th resistance inputs for the first of the buffer module Hold, the second end of the 8th resistance and the first output end that the first end of the 4th electric capacity is the buffer module, described first Second end of electric capacity, the second end of second electric capacity, the second of the second end of the 3rd electric capacity and the 4th electric capacity End with being connected to power supply altogether；

The first input end of the buffer module forms the input of the buffer module to the 4th input of the buffer module End, the 4th output end of the first output end to the buffer module of the buffer module form the output of the buffer module End.

8. the I2S signal transmission systems as described in any one of claim 4 or 5, it is characterised in that the waveform recovery module bag Include the first triode, the second triode, the 3rd triode, the 4th triode, the 9th resistance, the tenth resistance, the 11st resistance, 12 resistance, the 13rd resistance, the 14th resistance, the 15th resistance and the 16th resistance；

The first input end of the extremely described waveform recovery module of transmitting of first triode, the current collection of first triode The first end of pole and the 9th resistance be the waveform recovery module the first output end, the base stage of first triode with The first end connection of tenth resistance, the second input of the extremely described waveform recovery module of transmitting of second triode The first end of end, the colelctor electrode of second triode and the 11st resistance exports for the second of the waveform recovery module End, the base stage of second triode are connected with the first end of the 12nd resistance, and the transmitting of the 3rd triode is extremely 3rd input of the waveform recovery module, the colelctor electrode of the 3rd triode and the first end of the 13rd resistance are 3rd output end of the waveform recovery module, the base stage of the 3rd triode connect with the first end of the 14th resistance Connect, the 4th input of the extremely described waveform recovery module of transmitting of the 4th triode, the current collection of the 4th triode The first end of pole and the 15th resistance be the waveform recovery module the 4th output end, the base stage of the 4th triode It is connected with the first end of the 16th resistance, the second end of the 9th resistance, the second end of the tenth resistance, described Second end of 11 resistance, the second end of the 12nd resistance, the second end of the 13rd resistance, the 14th resistance The second end, the second end of the 15th resistance and the second end of the 16th resistance be connected with the first power supply；

It is extensive that the first input end of the waveform recovery module to the 4th input of the waveform recovery module forms the waveform The input of multiple module, the 4th output end of the first output end to the waveform recovery module of the waveform recovery module are formed The output end of the waveform recovery module.

9. I2S signal transmission systems as claimed in claim 1, it is characterised in that first USB port and the 2nd USB ends Mouth is USB3.0 ports；

The power end of the USB3.0 ports is connected with second source, and the USB2.0 data negative pole end of the USB3.0 ports is institute The first input/output terminal of USB3.0 ports is stated, the USB2.0 data positive terminal of the USB3.0 ports is the USB3.0 ports The second input/output terminal, the high speeds of the USB3.0 ports receives threeth input of the data negative pole end for the USB3.0 ports Output end, the high speed of the USB3.0 ports receive the 4th input/output terminal that data positive terminal is the USB3.0 ports, institute The high speed for stating USB3.0 ports sends the 5th input/output terminal that data negative pole end is the USB3.0 ports, the USB3.0 ends The high speed of mouth sends the 6th input/output terminal that data positive terminal is the USB3.0 ports, the earth terminal of the USB3.0 ports With the feedback signal earth terminal of the USB3.0 ports with being connected to power supply altogether；

3rd input/output terminal of the USB3.0 ports to the 6th input/output terminal of the USB3.0 ports collectively forms institute State the input/output terminal of USB3.0 ports.