CN202904567U

CN202904567U - Serial data transmission system

Info

Publication number: CN202904567U
Application number: CN2012205950844U
Authority: CN
Inventors: 吴召雷; 武国胜
Original assignee: IPGoal Microelectronics Sichuan Co Ltd
Current assignee: IPGoal Microelectronics Sichuan Co Ltd
Priority date: 2012-11-13
Filing date: 2012-11-13
Publication date: 2013-04-24
Anticipated expiration: 2022-11-13

Abstract

The utility model discloses a serial data transmission system. The system comprises a sending end for sending data, a receiving end for receiving data sent by the sending end, a first connection capacitor which is connected between the sending end and the receiving end, and a second connection capacitor which is connected between the sending end and the receiving end; the sending end comprises a sending end drive unit and an amplitude detection unit which is connected with the sending end drive unit; the sending end drive unit outputs a pair of differential signals according to received data signals; and the amplitude detection unit detects the amplitude change of the differential signals output by the sending end drive unit and outputs an indication signal for indicating whether the sending end and the receiving end are connected normally. The serial data transmission system is simple in structure, strong in antijamming capability and low in power consumption.

Description

Serial data transmission system

Technical field

The utility model relates to a kind of data transmission system method, espespecially a kind of serial data transmission system with amplitude detection unit.

Background technology

In serial data transmission system, in the time will carrying out high speed data transfer, whether the receiving end that the transmitting terminal of electronic equipment need to detect the other side is connected normally with the transmitting terminal of this electronic equipment, only has transmitting terminal when electronic equipment to detect to be connected with the other side's receiving end just can begin to carry out high speed data transfer after normal.

Therefore requiring the transmitting terminal of electronic equipment will have one can detect receiving end and whether connect normal testing circuit.Because peripheral circuit variation is larger in serial data transmission system, especially the existence of parasitic circuit etc. on AC coupling device, the plate in the plate path, and the existence of the factor such as the uncertain impedance design of receiving end, when the design testing circuit, just require system that high antijamming capability is arranged, determination range accurately, and as far as possible little on power consumption, use with the low-power consumption of satisfying in the future development.

Therefore, be necessary to provide a kind of improvement serial data transmission system to overcome defects.

The utility model content

The purpose of this utility model provides a kind of simple in structure, serial data transmission system with amplitude detection unit that antijamming capability is strong and low in energy consumption.

For achieving the above object, the utility model provides a kind of serial data transmission system, it comprises for the transmitting terminal that sends data, be used for receiving the receiving end that described transmitting terminal sends data, being connected in first between described transmitting terminal and the described receiving end is connected electric capacity and is connected in second between described transmitting terminal and the described receiving end and be connected electric capacity, it is characterized in that: described transmitting terminal comprises transmitting terminal driver element and the amplitude detection unit that links to each other with described transmitting terminal driver element, described transmitting terminal driver element is exported a pair of differential signal according to the data-signal that receives, described amplitude detection unit detects the changes in amplitude of described transmitting terminal driver element output difference sub-signal, and exports one and indicate described transmitting terminal whether to be connected normal indicator signal with described receiving end.

Preferably, described amplitude detection unit comprises amplitude detection circuit, generating circuit from reference voltage, the reference voltage end that links to each other with described generating circuit from reference voltage, the comparer that links to each other with described amplitude detection circuit and described reference voltage end, described amplitude detection circuit detects the changes in amplitude of described transmitting terminal driver element output difference sub-signal, and the magnitude of voltage that output is directly proportional with the differential signal changes in amplitude is to described comparer, the size of the magnitude of voltage of the more described amplitude detection circuit output of described comparer and the magnitude of voltage of described reference voltage end, and export and indicate described transmitting terminal whether to be connected normal indicator signal with described receiving end, described receiving end comprises the first resistance that is connected respectively the electric capacity connection with described first and the second resistance that is connected the electric capacity connection with described second.

Preferably, described transmitting terminal driver element comprises the first current source, the first field effect transistor that links to each other with described the first current source, the second field effect transistor that links to each other with described the first current source, the 3rd resistance that links to each other with described the first field effect transistor and the 4th resistance that links to each other with described the second field effect transistor, described amplitude detection circuit comprises the 4th current source, the 5th current source, the 3rd field effect transistor that links to each other with described the first field effect transistor and described the 3rd resistance, the 4th field effect transistor that links to each other with described the second field effect transistor and described the 4th resistance, the 8th field effect transistor, the 5th resistance that links to each other with described the 4th current source, the 6th resistance that links to each other with described the 5th current source, the 7th resistance that links to each other with described the 4th field effect transistor, the 8th resistance that links to each other with described the 3rd field effect transistor, the 9th resistance that links to each other with described the 3rd field effect transistor, the tenth resistance that links to each other with described the 4th field effect transistor, the 3rd electric capacity that links to each other with described the 5th resistance and the 4th electric capacity that links to each other with described the 6th resistance, described generating circuit from reference voltage comprises the second current source, the 3rd current source, the 5th field effect transistor, the 6th field effect transistor that links to each other with described the 5th field effect transistor, the 7th field effect transistor that links to each other with described the 5th field effect transistor and described the 6th field effect transistor, the 11 resistance that links to each other with described the 5th field effect transistor, the 12 resistance that links to each other with described the 6th field effect transistor, the 13 resistance that links to each other with described the second current source, the 14 resistance that links to each other with described the 3rd current source, the 15 resistance that links to each other with described the 13 resistance, the 16 resistance that links to each other with described the 14 resistance, the 5th electric capacity that links to each other with described the 15 resistance and the 6th electric capacity that links to each other with described the 16 resistance.

Preferably, one end of described the first current source, one end of described the second current source, one end of described the 3rd current source, one end of described the 4th current source, one end of described the 5th current source, one end of described the 7th resistance, one end of described the 8th resistance, the common power end that connects of one end of described the 11 resistance and an end of described the 12 resistance, the source class of described the first field effect transistor and the common other end that is connected described the first current source of the source class of described the second field effect transistor, the common differential data that receives a pair of input of the grid of the grid of described the first field effect transistor and described the second field effect transistor, one end of the drain electrode of described the first field effect transistor and described the 3rd resistance, described first connects an end of electric capacity, one end of the grid of described the 3rd field effect transistor and described the 9th resistance links to each other, one end of the drain electrode of described the second field effect transistor and described the 4th resistance, described second connects an end of electric capacity, one end of the grid of described the 4th field effect transistor and described the tenth resistance links to each other, and a pair of differential signal of the common output of the drain electrode of the drain electrode of described the first field effect transistor and described the second field effect transistor is to the grid of described the 3rd field effect transistor and the grid of described the 4th field effect transistor.

Preferably, described first other end that connects electric capacity links to each other with an end of described the second resistance, described second other end that connects electric capacity links to each other with an end of described the first resistance, the drain electrode of described the 3rd field effect transistor links to each other with the other end of described the 8th resistance, the drain electrode of described the 4th field effect transistor links to each other with the other end of described the 7th resistance, the source class of described the 3rd field effect transistor, the source class of described the 4th field effect transistor, the drain electrode of described the 8th field effect transistor, one end of described the 5th resistance, one end of described the 6th resistance, the common detection voltage end that connects of one end of described the 3rd electric capacity and an end of described the 4th electric capacity, the other end of described the 5th resistance links to each other with the other end of described the 4th current source, and the other end of described the 6th resistance links to each other with the other end of described the 5th current source.

Preferably, the other end of described the 9th resistance is connected the grid of described the 5th field effect transistor and the grid of described the 6th field effect transistor jointly with the other end of described the tenth resistance, and export a common mode signal to the grid of described the 5th field effect transistor and the grid of described the 6th field effect transistor, the drain electrode of described the 5th field effect transistor links to each other with the other end of described the 11 resistance, the drain electrode of described the 6th field effect transistor links to each other with the other end of described the 12 resistance, the source class of described the 5th field effect transistor, the source class of described the 6th field effect transistor, the drain electrode of described the 7th field effect transistor, one end of described the 15 resistance, one end of described the 16 resistance, one end of described the 5th electric capacity and an end of described the 6th electric capacity connect jointly.

Preferably, the grid of described the 7th field effect transistor links to each other with the grid of described the 8th field effect transistor, and jointly connect a voltage end, one end of described the 13 resistance links to each other with the other end of described the second current source, one end of described the 14 resistance links to each other with the other end of described the 3rd current source, the other end of described the 13 resistance is connected described reference voltage end jointly with the other end of described the 15 resistance, and the other end of described the 14 resistance links to each other with the other end of described the 16 resistance.

Preferably, the other end of described the first resistance, the other end of described the second resistance, the other end of described the 3rd resistance, the other end of described the 4th resistance, the other end of described the 3rd electric capacity, the other end of described the 4th electric capacity, the other end of described the 5th electric capacity, the other end of described the 6th electric capacity, the common earth terminal that connects of the source class of the source class of described the 7th field effect transistor and described the 8th field effect transistor, the normal phase input end of described comparer links to each other with described detection voltage end, inverting input links to each other with described reference voltage end, and whether the described transmitting terminal of output terminal output indication is connected normal indicator signal with described receiving end.

Relative prior art, the utility model serial data transmission system detects the changes in amplitude that the transmitting terminal the transmission of data produces by amplitude detection unit, the detection magnitude of voltage that generation is directly proportional with the changes in amplitude that the transmission of data produces, and whether be connected normally with receiving end by comparing to detect transmitting terminal with reference voltage level, simple in structure, antijamming capability is strong and low in energy consumption.

By following description also by reference to the accompanying drawings, it is more clear that the utility model will become, and these accompanying drawings are used for explaining the utility model.

Description of drawings

Fig. 1 is the system architecture diagram of the utility model serial data transmission system better embodiment.

Fig. 2 is the system chart of amplitude detection unit in the utility model serial data transmission system better embodiment.

Fig. 3 is the physical circuit figure of the utility model serial data transmission system better embodiment.

Embodiment

See also Fig. 1 and Fig. 3, the utility model serial data transmission system better embodiment comprises transmitting terminal, receiving end, be connected in first between described transmitting terminal and the described receiving end is connected capacitor C 1 and is connected in second between described transmitting terminal and the described receiving end and be connected capacitor C 2.Described transmitting terminal comprises transmitting terminal driver element and the amplitude detection unit that links to each other with described transmitting terminal driver element, and described receiving end comprises the first resistance that is connected respectively the electric capacity connection with described first and the second resistance that is connected the electric capacity connection with described second.

Described transmitting terminal driver element is exported a pair of differential signal tx_on, tx_op according to the data-signal that receives, described amplitude detection unit detects the changes in amplitude of this transmitting terminal driver element output signal tx_on, tx_op, and output is used to indicate described transmitting terminal and whether is connected normal indicator signal with receiving end, described the first connection capacitor C 1 is connected capacitor C 2 with second and is ac coupling capacitor, be used for the isolated DC signal, only allow AC signal to pass through.Described the first resistance R 1 and the second resistance R 2 are the loaded impedance of described receiving end, described the first resistance R 1 and the second resistance R 2 common grounds.

See also Fig. 2, Fig. 2 is the system chart of amplitude detection unit in the utility model serial data transmission system better embodiment.Please consult simultaneously Fig. 3, described amplitude detection unit comprises amplitude detection circuit, generating circuit from reference voltage, the reference voltage end Vref that links to each other with described generating circuit from reference voltage, the comparator C OMP that links to each other with described amplitude detection circuit and reference voltage end Vref.Described amplitude detection circuit is for detection of the changes in amplitude of transmitting terminal driving circuit output difference sub-signal, and the magnitude of voltage that output is directly proportional with the changes in amplitude of differential signal is to described comparator C OMP, described generating circuit from reference voltage for generation of the reference voltage of needs to described reference voltage end Vref, described comparator C OMP is used for the size of magnitude of voltage with the magnitude of voltage of reference voltage end Vref of more described amplitude detection circuit output, and exports and be used to indicate described transmitting terminal and whether be connected normal indicator signal with receiving end.

See also Fig. 3, Fig. 3 is the physical circuit figure of the utility model serial data transmission system better embodiment.Wherein, described transmitting terminal driver element comprises the first current source I1, the first field effect transistor M1 that links to each other with described the first current source I1, the second field effect transistor M2 that links to each other with described the first current source I1, the 3rd resistance R 3 that links to each other with described the first field effect transistor M1 and the 4th resistance R 4 that links to each other with the second field effect transistor M2.Described amplitude detection circuit comprises the 4th current source I4, the 5th current source I5, the 3rd field effect transistor M3, the 4th field effect transistor M4, the 8th field effect transistor M8, the 5th resistance R 5, the 6th resistance R 6, the 7th resistance R 7, the 8th resistance R 8, the 9th resistance R 9, the tenth resistance R 10, the 3rd capacitor C 3 and the 4th capacitor C 4.Described generating circuit from reference voltage comprises the second current source I2, the 3rd current source I3, the 5th field effect transistor M5, the 6th field effect transistor M6, the 7th field effect transistor M7, the 11 resistance R 11, the 12 resistance R 12, the 13 resistance R 13, the 14 resistance R 14, the 15 resistance R 15, the 16 resistance R 16, the 5th capacitor C 5 and the 6th capacitor C 6.

The physical circuit annexation of the utility model serial data transmission system better embodiment is as follows: the end of the end of the end of described the first current source I1, the second current source I2, the end of the 3rd current source I3, the 4th current source I4, the end of the 5th current source I5, an end of the 7th resistance R 7, an end of the 8th resistance R 8, an end of the 11 resistance R 11 and an end of the 12 resistance R 12 connect power end VDD jointly.The source class of described the first field effect transistor M1 and the common other end that is connected described the first current source I1 of the source class of the second field effect transistor M2, the common differential data DATA_P that receives a pair of input of the grid of the grid of described the first field effect transistor M1 and the second field effect transistor M2, DATA_N, one end of the drain electrode of described the first field effect transistor M1 and the 3rd resistance R 3, first connects an end of capacitor C 1, one end of the grid of the 3rd field effect transistor M3 and the 9th resistance R 9 links to each other, one end of the drain electrode of described the second field effect transistor M2 and the 4th resistance R 4, second connects an end of capacitor C 2, one end of the grid of the 4th field effect transistor M4 and the tenth resistance R 10 links to each other, a pair of differential signal Tx_on of the common output of the drain electrode of the drain electrode of described the first field effect transistor M1 and the second field effect transistor M2, Tx_op is to the grid of described the 3rd field effect transistor M3 and the grid of the 4th field effect transistor M4.Described first other end that connects capacitor C 1 links to each other with an end of the second resistance R 2, and described second other end that connects capacitor C 2 links to each other with an end of the first resistance R 1.The drain electrode of described the 3rd field effect transistor M3 links to each other with the other end of the 8th resistance R 8, the drain electrode of described the 4th field effect transistor M4 links to each other with the other end of the 7th resistance R 7, the common detection voltage end Vdct that connects of an end of an end of the source class of the source class of described the 3rd field effect transistor M3, the 4th field effect transistor M4, the drain electrode of the 8th field effect transistor M8, the 5th resistance R 5, an end of the 6th resistance R 6, the 3rd capacitor C 3 and an end of the 4th capacitor C 4.The other end of described the 5th resistance R 5 links to each other with the other end of the 4th current source I4, and the other end of described the 6th resistance R 6 links to each other with the other end of the 5th current source I5.The other end of described the 9th resistance R 9 is connected the grid of the 5th field effect transistor M5 and the grid of the 6th field effect transistor M6 jointly with the other end of the tenth resistance R 10, and exports a common mode signal Tx_com to the grid of described the 5th field effect transistor M5 and the grid of the 6th field effect transistor M6.The drain electrode of described the 5th field effect transistor M5 links to each other with the other end of the 11 resistance R 11, and the drain electrode of described the 6th field effect transistor M6 links to each other with the other end of the 12 resistance R 12.One end of one end of the drain electrode of the source class of the source class of described the 5th field effect transistor M5, the 6th field effect transistor M6, the 7th field effect transistor M7, the 15 resistance R 15, an end of the 16 resistance R 16, the 5th capacitor C 5 and an end of the 6th capacitor C 6 connect jointly.The grid of described the 7th field effect transistor M7 links to each other with the grid of the 8th field effect transistor M8, and jointly connects voltage end Vb.One end of described the 13 resistance R 13 links to each other with the other end of the second current source I2, one end of described the 14 resistance R 14 links to each other with the other end of the 3rd current source I3, the other end of described the 13 resistance R 13 is connected reference voltage end Vref jointly with the other end of the 15 resistance R 15, and the other end of described the 14 resistance R 14 links to each other with the other end of the 16 resistance R 16.The source class of the source class of the other end of the other end of the other end of the other end of the other end of the other end of the other end of the other end of described the first resistance R 1, the second resistance R 2, the 3rd resistance R 3, the 4th resistance R 4, the 3rd capacitor C 3, the 4th capacitor C 4, the 5th capacitor C 5, the 6th capacitor C 6, the 7th field effect transistor M7 and the 8th field effect transistor M8 connects earth terminal GND jointly.The normal phase input end of described comparator C OMP links to each other with detection voltage end Vdct, inverting input links to each other with reference voltage end Vref, whether the described transmitting terminal of output terminal OUT output indication is connected normal indicator signal with receiving end, the voltage end of described comparator C OMP connects power end VDD, and another voltage end of described comparator C OMP connects earth terminal GND.

The principle of work of the utility model serial data transmission system better embodiment is as follows:

See also Fig. 3, differential data DATA_P, DATA_N are the serial data that needs the transmitting terminal transmission in the described serial data transmission system, when opening described amplitude detection unit, differential data DATA_P, DATA_N are the data to be tested of certain frequency, and its frequency can be regulated according to the design needs.

The output amplitude of supposing differential signal Tx_on, Tx_op is respectively:

V _{Tx_on}＝V _{Tx_com}+ΔV，V _{Tx_op}=V _{Tx_com}-ΔV；

Its common mode voltage V _{Tx_com}For:

Wherein, Δ V is the magnitude of voltage that differential signal Tx_on, Tx_op depart from common mode, i.e. the amplitude of transmitting terminal output signal.

At this moment, the electric current sum that flows through described the 3rd field effect transistor M3 and the 4th field effect transistor M4 is:

I _M3+I _M4=K(V _{Tx_op}-V _dct-V _th) ²+K(V _{Tx_on}-V _dct-V _th) ²=K(V _b-V _th) ²-I ₄-I ₅，

The magnitude of voltage Vdct that can be obtained detecting voltage end Vdct by this expression formula with the variation formula of Δ V is:

V_{dct} \approx \frac{(V_{th} - V_{Tx_com}) + \sqrt{{(V_{th} - V_{Tx_com})}^{2} + 4 ΔV}}{2},

V _dct∝ΔV，

Namely detect the magnitude of voltage Vdct of voltage end Vdct and the magnitude of voltage Δ V relation in direct ratio that differential signal Tx_on, Tx_op depart from common mode.

Wherein, K is scale-up factor, its value

μ is the mobility of field effect transistor technique, and Cox is the gate oxide thickness of field effect transistor technique,

Be the breadth length ratio of the 3rd field effect transistor M3 and the 4th field effect transistor M4, Vth is the threshold voltage of field effect transistor.

By above formula as can be known, the magnitude of voltage Vdct of detection voltage end Vdct becomes large greatly with the magnitude of voltage Δ V change that differential signal Tx_on, Tx_op depart from common mode.

Suppose to be connected with receiving end when normal when transmitting terminal detects transmitting terminal, the magnitude of voltage that differential signal Tx_on, Tx_op depart from common mode is Δ V1, and the magnitude of voltage that detects voltage end Vdct is Vdct1; When transmitting terminal detects transmitting terminal and receiving end malunion when normal, the magnitude of voltage that differential signal Tx_on, Tx_op depart from common mode is Δ V2, and the magnitude of voltage that detects voltage end Vdct is Vdct2, then:

When detecting transmitting terminal, transmitting terminal is connected with receiving end when normal,

When transmitting terminal detects transmitting terminal and receiving end malunion when normal,

Because Δ V1＜Δ V2, so Vdct1＜Vdct2.

In order to distinguish above two kinds of situations, so that the reference voltage level Vref that generating circuit from reference voltage produces is between Δ V1 and Δ V2.

When detecting transmitting terminal, transmitting terminal is connected with receiving end when normal, Vdct＜Vref, and namely the output terminal OUT of comparer is output as low level;

When transmitting terminal detects transmitting terminal and receiving end malunion when normal, Vdct〉Vref, namely the output terminal OUT of comparer is output as high level.

This shows, whether the level signal by comparator output terminal output can detect transmitting terminal and be connected normally with receiving end.

The utility model serial data transmission system detects the changes in amplitude that the transmitting terminal the transmission of data produces by amplitude detection unit, it is the magnitude of voltage that differential signal Tx_on, Tx_op depart from common mode, the detection magnitude of voltage that generation is directly proportional with the changes in amplitude that the transmission of data produces, and whether be connected normally with receiving end by comparing to detect transmitting terminal with reference voltage level, simple in structure, antijamming capability is strong and low in energy consumption.

Abovely in conjunction with most preferred embodiment the utility model is described, but the utility model is not limited to the embodiment of above announcement, and should contains various modification, equivalent combinations of carrying out according to essence of the present utility model.

Claims

1. serial data transmission system, comprise for the transmitting terminal that sends data, be used for receiving the receiving end that described transmitting terminal sends data, being connected in first between described transmitting terminal and the described receiving end is connected electric capacity and is connected in second between described transmitting terminal and the described receiving end and be connected electric capacity, it is characterized in that: described transmitting terminal comprises transmitting terminal driver element and the amplitude detection unit that links to each other with described transmitting terminal driver element, described transmitting terminal driver element is exported a pair of differential signal according to the data-signal that receives, described amplitude detection unit detects the changes in amplitude of described transmitting terminal driver element output difference sub-signal, and exports one and indicate described transmitting terminal whether to be connected normal indicator signal with described receiving end.

2. serial data transmission system as claimed in claim 1, it is characterized in that: described amplitude detection unit comprises amplitude detection circuit, generating circuit from reference voltage, the reference voltage end that links to each other with described generating circuit from reference voltage, the comparer that links to each other with described amplitude detection circuit and described reference voltage end, described amplitude detection circuit detects the changes in amplitude of described transmitting terminal driver element output difference sub-signal, and the magnitude of voltage that output is directly proportional with the differential signal changes in amplitude is to described comparer, the size of the magnitude of voltage of the more described amplitude detection circuit output of described comparer and the magnitude of voltage of described reference voltage end, and export and indicate described transmitting terminal whether to be connected normal indicator signal with described receiving end, described receiving end comprises the first resistance that is connected respectively the electric capacity connection with described first and the second resistance that is connected the electric capacity connection with described second.

3. serial data transmission system as claimed in claim 2, it is characterized in that: described transmitting terminal driver element comprises the first current source, the first field effect transistor that links to each other with described the first current source, the second field effect transistor that links to each other with described the first current source, the 3rd resistance that links to each other with described the first field effect transistor and the 4th resistance that links to each other with described the second field effect transistor, described amplitude detection circuit comprises the 4th current source, the 5th current source, the 3rd field effect transistor that links to each other with described the first field effect transistor and described the 3rd resistance, the 4th field effect transistor that links to each other with described the second field effect transistor and described the 4th resistance, the 8th field effect transistor, the 5th resistance that links to each other with described the 4th current source, the 6th resistance that links to each other with described the 5th current source, the 7th resistance that links to each other with described the 4th field effect transistor, the 8th resistance that links to each other with described the 3rd field effect transistor, the 9th resistance that links to each other with described the 3rd field effect transistor, the tenth resistance that links to each other with described the 4th field effect transistor, the 3rd electric capacity that links to each other with described the 5th resistance and the 4th electric capacity that links to each other with described the 6th resistance, described generating circuit from reference voltage comprises the second current source, the 3rd current source, the 5th field effect transistor, the 6th field effect transistor that links to each other with described the 5th field effect transistor, the 7th field effect transistor that links to each other with described the 5th field effect transistor and described the 6th field effect transistor, the 11 resistance that links to each other with described the 5th field effect transistor, the 12 resistance that links to each other with described the 6th field effect transistor, the 13 resistance that links to each other with described the second current source, the 14 resistance that links to each other with described the 3rd current source, the 15 resistance that links to each other with described the 13 resistance, the 16 resistance that links to each other with described the 14 resistance, the 5th electric capacity that links to each other with described the 15 resistance and the 6th electric capacity that links to each other with described the 16 resistance.

4. serial data transmission system as claimed in claim 3, it is characterized in that: an end of described the first current source, one end of described the second current source, one end of described the 3rd current source, one end of described the 4th current source, one end of described the 5th current source, one end of described the 7th resistance, one end of described the 8th resistance, the common power end that connects of one end of described the 11 resistance and an end of described the 12 resistance, the source class of described the first field effect transistor and the common other end that is connected described the first current source of the source class of described the second field effect transistor, the common differential data that receives a pair of input of the grid of the grid of described the first field effect transistor and described the second field effect transistor, one end of the drain electrode of described the first field effect transistor and described the 3rd resistance, described first connects an end of electric capacity, one end of the grid of described the 3rd field effect transistor and described the 9th resistance links to each other, one end of the drain electrode of described the second field effect transistor and described the 4th resistance, described second connects an end of electric capacity, one end of the grid of described the 4th field effect transistor and described the tenth resistance links to each other, and a pair of differential signal of the common output of the drain electrode of the drain electrode of described the first field effect transistor and described the second field effect transistor is to the grid of described the 3rd field effect transistor and the grid of described the 4th field effect transistor.

5. serial data transmission system as claimed in claim 4, it is characterized in that: described first other end that connects electric capacity links to each other with an end of described the second resistance, described second other end that connects electric capacity links to each other with an end of described the first resistance, the drain electrode of described the 3rd field effect transistor links to each other with the other end of described the 8th resistance, the drain electrode of described the 4th field effect transistor links to each other with the other end of described the 7th resistance, the source class of described the 3rd field effect transistor, the source class of described the 4th field effect transistor, the drain electrode of described the 8th field effect transistor, one end of described the 5th resistance, one end of described the 6th resistance, the common detection voltage end that connects of one end of described the 3rd electric capacity and an end of described the 4th electric capacity, the other end of described the 5th resistance links to each other with the other end of described the 4th current source, and the other end of described the 6th resistance links to each other with the other end of described the 5th current source.

6. serial data transmission system as claimed in claim 5, it is characterized in that: the other end of described the 9th resistance is connected the grid of described the 5th field effect transistor and the grid of described the 6th field effect transistor jointly with the other end of described the tenth resistance, and export a common mode signal to the grid of described the 5th field effect transistor and the grid of described the 6th field effect transistor, the drain electrode of described the 5th field effect transistor links to each other with the other end of described the 11 resistance, the drain electrode of described the 6th field effect transistor links to each other with the other end of described the 12 resistance, the source class of described the 5th field effect transistor, the source class of described the 6th field effect transistor, the drain electrode of described the 7th field effect transistor, one end of described the 15 resistance, one end of described the 16 resistance, one end of described the 5th electric capacity and an end of described the 6th electric capacity connect jointly.

7. serial data transmission system as claimed in claim 6, it is characterized in that: the grid of described the 7th field effect transistor links to each other with the grid of described the 8th field effect transistor, and jointly connect a voltage end, one end of described the 13 resistance links to each other with the other end of described the second current source, one end of described the 14 resistance links to each other with the other end of described the 3rd current source, the other end of described the 13 resistance is connected described reference voltage end jointly with the other end of described the 15 resistance, and the other end of described the 14 resistance links to each other with the other end of described the 16 resistance.

8. serial data transmission system as claimed in claim 7, it is characterized in that: the other end of described the first resistance, the other end of described the second resistance, the other end of described the 3rd resistance, the other end of described the 4th resistance, the other end of described the 3rd electric capacity, the other end of described the 4th electric capacity, the other end of described the 5th electric capacity, the other end of described the 6th electric capacity, the common earth terminal that connects of the source class of the source class of described the 7th field effect transistor and described the 8th field effect transistor, the normal phase input end of described comparer links to each other with described detection voltage end, inverting input links to each other with described reference voltage end, and whether the described transmitting terminal of output terminal output indication is connected normal indicator signal with described receiving end.