CN204498073U - A kind of circuit realizing simulation and difference two assonance source sharing audio power amplifier - Google Patents

Abstract

This application discloses a kind of circuit realizing simulation and difference two assonance source sharing audio power amplifier, this circuit comprises Switching Power Supply input circuit, simulation source of sound input circuit, difference source of sound input circuit, source of sound input selection circuit, audio frequency processing circuit, audio power amplifying circuit and loud speaker, wherein, audio frequency processing circuit is used for the filtering of two class audio frequency signals, amplify and impedance matching, after simulation/difference audio signal that source of sound input selection circuit exports is processed, export to audio power amplifying circuit, audio power amplifying circuit is play through loud speaker after audio signal is amplified process.The application can the input of compatible analog and difference two class audio frequency signal well, avoids disturbing mutually, also can realize two-way audio signal simultaneously and export separately or carry out mixing output, and hardware cost is few, volume is little and low in energy consumption.

Description

A kind of circuit realizing simulation and difference two assonance source sharing audio power amplifier

Technical field

The utility model relates to audio frequency power amplifier product technical field, particularly a kind of circuit realizing simulation and difference two assonance source sharing audio power amplifier.

Background technology

Along with the fast development of electronic technology, audio frequency apparatus is closely bound up with everyone daily life.Put device for the outer of some sources of sound, its sonification system is that audio frequency small-signal signal source transmission come by audio-frequency power amplifier first exports to loud speaker again after process, amplification, is sounded by loud speaker vibrations.But source of sound outer put device often can not compatible analog and difference two class audio frequency input signal well, due to two class sources of sound, the output impedance of its front stage circuits there are differences and audio signal kind is different, therefore two class audio frequency signals directly can not be parallel to audio power amplifying circuit input, otherwise generation is disturbed by two class audio frequency signals mutually, the direct user of impact impression even cannot normally export, and seriously adds again the hardware cost of terminal equipment, volume and power consumption according to two audio-frequency power amplifiers.

For this reason, Chinese patent ZL200810007714.X discloses a kind of share audio power amplification circuit for multi-audio source and control method thereof, switch multiple sound resource by analog switch and export the multiple sound resource audio signal of series resistance output to audio frequency power amplifier input circuit, impedance matching and source of sound channel selecting is realized with this, its shortcoming is the amplification that cannot realize the different sound source signal of two classes, cannot the input of compatible analog and difference two class audio frequency signal, and can only by analog switch gating wherein a road audio signal to described audio frequency power amplifier input circuit, cannot accomplish that two-way or multipath audio signal carry out mixing output.

Utility model content

For Problems existing in background technology, the purpose of this utility model is to provide a kind of circuit realizing simulation and difference two assonance source sharing audio power amplifier, this circuit can the input of compatible analog and difference two class audio frequency signal well, avoid disturbing mutually, simultaneously also can realize two-way audio signal export separately or carry out mixing output, and hardware cost is few, volume is little and low in energy consumption.

The purpose of this utility model is achieved through the following technical solutions:

A kind of circuit realizing simulation and difference two assonance source sharing audio power amplifier, described circuit comprises Switching Power Supply input circuit, simulation source of sound input circuit, difference source of sound input circuit, source of sound input selection circuit, audio frequency processing circuit, audio power amplifying circuit and loud speaker, wherein

Described Switching Power Supply input circuit is connected with described audio frequency processing circuit and audio power amplifying circuit, for energy storage and the filtering of power supply, for whole system is powered;

Described simulation source of sound input circuit is connected with described source of sound input selection circuit, for providing simulated audio signal source for source of sound input selection circuit;

Described difference source of sound input circuit is connected with described source of sound input selection circuit, for providing difference audio signal source for source of sound input selection circuit;

Described source of sound input selection circuit is connected with described audio frequency processing circuit, for selecting the audio signal source entering audio frequency processing circuit;

Described audio frequency processing circuit is connected with described audio power amplifying circuit, for the filtering of two class audio frequency signals, amplification and impedance matching, after simulation/difference audio signal that source of sound input selection circuit exports is processed, export to audio power amplifying circuit, audio power amplifying circuit is play through described loud speaker after audio signal is amplified process.

Further, described audio frequency processing circuit comprises simulation source of sound processing unit and difference source of sound processing unit; Described simulation source of sound processing unit is used for carrying out filtering, amplification and impedance matching to simulated audio signal, then the simulated audio signal after process is exported to described audio power amplifying circuit; Described difference source of sound processing unit is used for carrying out filtering, amplification and impedance matching to difference audio signal, then the difference audio signal after process is exported to described audio power amplifying circuit.

Further, the integrated operational amplifier model used by described audio frequency processing circuit is: NE5532D, and this operational amplifier adopts single power supply.

Further, described simulation source of sound processing unit includes the 3rd resistance R3, the 4th resistance R4, the second electric capacity C2, the second resistance R2, the first electric capacity C1, the first resistance R1, the 5th resistance R5, the 6th resistance R6, the 4th electric capacity C4, the first integrated operational amplifier U1A, the 3rd electric capacity C3, the 8th resistance R8, the tenth resistance R10, the 6th electric capacity C6, the 9th resistance R9, the 5th electric capacity C5, the 7th resistance R7, the first integrated operational amplifier U1B, the 7th electric capacity C7.Wherein one end of the 3rd resistance R3 is connected with the right channel analog audio signal that described source of sound input selection circuit exports, and the other end is connected to one end of the 4th resistance R4 and the second electric capacity C2, the other end ground connection of the 4th resistance R4, the other end of the second electric capacity C2 is connected to one end of the second resistance R2, the other end of the second resistance R2 is connected to the first electric capacity C1, one end of first resistance R1 and the inverting input Pin2 of the first integrated operational amplifier U1A, the output Pin1 of the first integrated operational amplifier U1A is connected to the first electric capacity C1 respectively, the other end of the first resistance R1 and one end of the 3rd electric capacity C3, and the other end of the 3rd electric capacity C3 is connected to described audio power amplifying circuit as right channel analog audio signal output, the in-phase input end Pin3 of the first integrated operational amplifier U1A is connected to the 5th resistance R5 respectively, one end of 6th resistance R6 and the 4th electric capacity C4, other one end of 5th resistance R5 is connected to+12V power supply, other one end ground connection of the 6th resistance R6 and the 4th electric capacity C4, the left channel analog audio signal that one end and the source of sound input selection circuit of the 8th resistance R8 export is connected, and the other end is connected to one end of the tenth resistance R10 and the 6th electric capacity C6, the other end ground connection of the tenth resistance R10, the other end of the 6th electric capacity C6 is connected to one end of the 9th resistance R9, the other end of the 9th resistance R9 is connected to the 5th electric capacity C5, one end of 7th resistance R7 and the inverting input Pin6 of the first integrated operational amplifier U1B, the output Pin7 of the first integrated operational amplifier U1B is connected to the 5th electric capacity C5 respectively, the other end of the 7th resistance R7 and one end of the 7th electric capacity C7, and the other end of the 7th electric capacity C7 is connected to audio power amplifying circuit as left channel analog audio signal output, the in-phase input end Pin5 of the first integrated operational amplifier U1B is connected to the in-phase input end Pin3 of the first integrated operational amplifier U1A.

Further, described difference source of sound processing unit includes the 13 resistance R13, 14 resistance R14, 9th electric capacity C9, 11 resistance R11, 8th electric capacity C8, 12 resistance R12, 16 resistance R16, 18 resistance R18, 12 electric capacity C12, 17 resistance R17, 15 resistance R15, 11 electric capacity C11, second integrated operational amplifier U2A, tenth electric capacity C10, 20 resistance R20, 22 resistance R22, 14 electric capacity C14, 21 resistance R21, 13 electric capacity C13, 19 resistance R19, 24 resistance R24, 26 resistance R26, 17 electric capacity C17, 25 resistance R25, 23 resistance R23, 16 electric capacity C16, second integrated operational amplifier U2B, 15 electric capacity C15, wherein, the anode of the R channel difference audio signal that one end and the described source of sound input selection circuit of the 13 resistance R13 export is connected, and the other end is connected to one end of the 14 resistance R14 and the 9th electric capacity C9, the other end ground connection of the 14 resistance R14, the other end of the 9th electric capacity C9 is connected to one end of the 11 resistance R11, the other end of the 11 resistance R11 is connected to the 8th electric capacity C8, one end of 12 resistance R12 and the inverting input Pin2 of the second integrated operational amplifier U2A, the output Pin1 of the second integrated operational amplifier U2A is connected to the 8th electric capacity C8 respectively, the other end of the 12 resistance R12 and one end of the tenth electric capacity C10, and the other end of the tenth electric capacity C10 is connected to audio power amplifying circuit as right channel analog audio signal output, the negative terminal of the R channel difference audio signal that one end and the source of sound input selection circuit of the 16 resistance R16 export is connected, and the other end is connected to one end of the 18 resistance R18 and the 12 electric capacity C12, the other end ground connection of the 18 resistance R18, the other end of the 12 electric capacity C12 is connected to one end of the 17 resistance R17, the other end of the 17 resistance R17 is connected to the 15 resistance R15, one end of 11 electric capacity C11 and the in-phase input end Pin3 of the second integrated operational amplifier U2A, the other end of the 15 resistance R15 and the 11 electric capacity C11 is connected to in-phase input end Pin3 and Pin5 of the first integrated operational amplifier U1, the anode of L channel difference audio signal that simultaneously one end of the 20 resistance R20 exports with source of sound input selection circuit is connected, and the other end is connected to one end of the 22 resistance R22 and the 14 electric capacity C14, the other end ground connection of the 22 resistance R22, the other end of the 14 electric capacity C14 is connected to one end of the 21 resistance R21, the other end of the 21 resistance R21 is connected to the 13 electric capacity C13, one end of 19 resistance R19 and the inverting input Pin6 of the second integrated operational amplifier U2B, the output Pin7 of the second integrated operational amplifier U2B is connected to the 13 electric capacity C13 respectively, the other end of the 19 resistance R19 and one end of the 15 electric capacity C15, and the other end of the 15 electric capacity C15 is connected to audio power amplifying circuit as left channel analog audio signal output, the negative terminal of the L channel difference audio signal that one end and the source of sound input selection circuit of the 24 resistance R24 export is connected, and the other end is connected to one end of the 26 resistance R26 and the 17 electric capacity C17, the other end of the 26 resistance R26 is connected to ground, the other end of the 17 electric capacity C17 is connected to one end of the 25 resistance R25, the other end of the 25 resistance R25 is connected to the 23 resistance R23, one end of 16 electric capacity C16 and the in-phase input end Pin5 of the second integrated operational amplifier U2B, the other end of the 23 resistance R23 and the 16 electric capacity C16 is also connected to in-phase input end Pin3 and Pin5 of the first integrated operational amplifier U1.

The utility model has following positive technique effect:

The application can the input of compatible analog and difference two class audio frequency signal well, avoids disturbing mutually, also can realize two-way audio signal simultaneously and export separately or carry out mixing output, and hardware cost is few, volume is little and low in energy consumption.The input of the utility model compatible analog and difference two class audio frequency signal is by utilizing the method for simulation and difference two assonance source sharing audio power amplifier to realize after audio frequency processing circuit; Audio power amplifier circuit to receive from audio frequency processing circuit after filtering, amplifies and effective audio signal of exporting after impedance matching, then exports to loud speaker after carrying out power amplification; The design's structure is simple, easy to use, and safe and reliable.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the circuit theory diagrams of audio frequency processing circuit of the present utility model.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described further.

As illustrated in fig. 1 and 2, a kind of circuit realizing simulation and difference two assonance source sharing audio power amplifier of the application, this circuit comprises Switching Power Supply input circuit, simulation source of sound input circuit, difference source of sound input circuit, source of sound input selection circuit, audio frequency processing circuit, audio power amplifying circuit and loud speaker, wherein, Switching Power Supply input circuit is connected with audio frequency processing circuit and audio power amplifying circuit, for energy storage and the filtering of power supply, for whole system is powered; Simulation source of sound input circuit is connected with source of sound input selection circuit, for providing simulated audio signal source for source of sound input selection circuit; Difference source of sound input circuit is connected with source of sound input selection circuit, for providing difference audio signal source for source of sound input selection circuit; Source of sound input selection circuit is connected with audio frequency processing circuit, for selecting the audio signal source entering audio frequency processing circuit; Audio frequency processing circuit is connected with audio power amplifying circuit, for the filtering of two class audio frequency signals, amplification and impedance matching, after simulation/difference audio signal that source of sound input selection circuit exports is processed, export to audio power amplifying circuit, audio power amplifying circuit is play through described loud speaker after audio signal is amplified process.

Wherein, audio frequency processing circuit comprises simulation source of sound processing unit and difference source of sound processing unit; Simulation source of sound processing unit is used for carrying out filtering, amplification and impedance matching to simulated audio signal, then the simulated audio signal after process is exported to audio power amplifying circuit; Difference source of sound processing unit is used for carrying out filtering, amplification and impedance matching to difference audio signal, then the difference audio signal after process is exported to audio power amplifying circuit.

Preferably, the integrated operational amplifier model used by audio frequency processing circuit is: NE5532D, and this operational amplifier adopts single power supply; Thus whole system power-supply service is simplified.

The simulation source of sound processing unit of the application includes the 3rd resistance R3, the 4th resistance R4, the second electric capacity C2, the second resistance R2, the first electric capacity C1, the first resistance R1, the 5th resistance R5, the 6th resistance R6, the 4th electric capacity C4, the first integrated operational amplifier U1A, the 3rd electric capacity C3, the 8th resistance R8, the tenth resistance R10, the 6th electric capacity C6, the 9th resistance R9, the 5th electric capacity C5, the 7th resistance R7, the first integrated operational amplifier U1B, the 7th electric capacity C7.Wherein one end of the 3rd resistance R3 is connected with the right channel analog audio signal that source of sound input selection circuit exports, and the other end is connected to one end of the 4th resistance R4 and the second electric capacity C2, the other end ground connection of the 4th resistance R4, the other end of the second electric capacity C2 is connected to one end of the second resistance R2, the other end of the second resistance R2 is connected to the first electric capacity C1, one end of first resistance R1 and the inverting input Pin2 of the first integrated operational amplifier U1A, the output Pin1 of the first integrated operational amplifier U1A is connected to the first electric capacity C1 respectively, the other end of the first resistance R1 and one end of the 3rd electric capacity C3, and the other end of the 3rd electric capacity C3 is connected to audio power amplifying circuit as right channel analog audio signal output, the in-phase input end Pin3 of the first integrated operational amplifier U1A is connected to the 5th resistance R5 respectively, one end of 6th resistance R6 and the 4th electric capacity C4, other one end of 5th resistance R5 is connected to+12V power supply, other one end ground connection of the 6th resistance R6 and the 4th electric capacity C4, the left channel analog audio signal that one end and the source of sound input selection circuit of the 8th resistance R8 export is connected, and the other end is connected to one end of the tenth resistance R10 and the 6th electric capacity C6, the other end ground connection of the tenth resistance R10, the other end of the 6th electric capacity C6 is connected to one end of the 9th resistance R9, the other end of the 9th resistance R9 is connected to the 5th electric capacity C5, one end of 7th resistance R7 and the inverting input Pin6 of the first integrated operational amplifier U1B, the output Pin7 of the first integrated operational amplifier U1B is connected to the 5th electric capacity C5 respectively, the other end of the 7th resistance R7 and one end of the 7th electric capacity C7, and the other end of the 7th electric capacity C7 is connected to audio power amplifying circuit as left channel analog audio signal output, the in-phase input end Pin5 of the first integrated operational amplifier U1B is connected to the in-phase input end Pin3 of the first integrated operational amplifier U1A.

And difference source of sound processing unit includes the 13 resistance R13, 14 resistance R14, 9th electric capacity C9, 11 resistance R11, 8th electric capacity C8, 12 resistance R12, 16 resistance R16, 18 resistance R18, 12 electric capacity C12, 17 resistance R17, 15 resistance R15, 11 electric capacity C11, second integrated operational amplifier U2A, tenth electric capacity C10, 20 resistance R20, 22 resistance R22, 14 electric capacity C14, 21 resistance R21, 13 electric capacity C13, 19 resistance R19, 24 resistance R24, 26 resistance R26, 17 electric capacity C17, 25 resistance R25, 23 resistance R23, 16 electric capacity C16, second integrated operational amplifier U2B, 15 electric capacity C15, wherein, the anode of the R channel difference audio signal that one end and the described source of sound input selection circuit of the 13 resistance R13 export is connected, and the other end is connected to one end of the 14 resistance R14 and the 9th electric capacity C9, the other end ground connection of the 14 resistance R14, the other end of the 9th electric capacity C9 is connected to one end of the 11 resistance R11, the other end of the 11 resistance R11 is connected to the 8th electric capacity C8, one end of 12 resistance R12 and the inverting input Pin2 of the second integrated operational amplifier U2A, the output Pin1 of the second integrated operational amplifier U2A is connected to the 8th electric capacity C8 respectively, the other end of the 12 resistance R12 and one end of the tenth electric capacity C10, and the other end of the tenth electric capacity C10 is connected to audio power amplifying circuit as right channel analog audio signal output, the negative terminal of the R channel difference audio signal that one end and the source of sound input selection circuit of the 16 resistance R16 export is connected, and the other end is connected to one end of the 18 resistance R18 and the 12 electric capacity C12, the other end ground connection of the 18 resistance R18, the other end of the 12 electric capacity C12 is connected to one end of the 17 resistance R17, the other end of the 17 resistance R17 is connected to the 15 resistance R15, one end of 11 electric capacity C11 and the in-phase input end Pin3 of the second integrated operational amplifier U2A, the other end of the 15 resistance R15 and the 11 electric capacity C11 is connected to in-phase input end Pin3 and Pin5 of the first integrated operational amplifier U1, the anode of L channel difference audio signal that simultaneously one end of the 20 resistance R20 exports with source of sound input selection circuit is connected, and the other end is connected to one end of the 22 resistance R22 and the 14 electric capacity C14, the other end ground connection of the 22 resistance R22, the other end of the 14 electric capacity C14 is connected to one end of the 21 resistance R21, the other end of the 21 resistance R21 is connected to the 13 electric capacity C13, one end of 19 resistance R19 and the inverting input Pin6 of the second integrated operational amplifier U2B, the output Pin7 of the second integrated operational amplifier U2B is connected to the 13 electric capacity C13 respectively, the other end of the 19 resistance R19 and one end of the 15 electric capacity C15, and the other end of the 15 electric capacity C15 is connected to audio power amplifying circuit as left channel analog audio signal output, the negative terminal of the L channel difference audio signal that one end and the source of sound input selection circuit of the 24 resistance R24 export is connected, and the other end is connected to one end of the 26 resistance R26 and the 17 electric capacity C17, the other end of the 26 resistance R26 is connected to ground, the other end of the 17 electric capacity C17 is connected to one end of the 25 resistance R25, the other end of the 25 resistance R25 is connected to the 23 resistance R23, one end of 16 electric capacity C16 and the in-phase input end Pin5 of the second integrated operational amplifier U2B, the other end of the 23 resistance R23 and the 16 electric capacity C16 is also connected to in-phase input end Pin3 and Pin5 of the first integrated operational amplifier U1.

When source of sound input selection circuit exports simulated audio signal, left and right acoustic channels simulated audio signal carries out after filtering, amplification and impedance matching through audio frequency processing circuit analogy signal processing unit, is exported to by the left and right acoustic channels simulated audio signal after process after audio power amplifying circuit carries out power amplification and exports by putting device loud speaker outward.

When source of sound input selection circuit output difference multi-voice frequency signal, left and right acoustic channels simulated audio signal after process, after audio frequency processing circuit differential signal processing unit carries out filtering, amplification and impedance matching, is exported to after audio power amplifying circuit carries out power amplification and is exported by putting device loud speaker outward by left and right acoustic channels difference audio signal.

When source of sound input selection circuit exports simulation and two differential circuits audio signal simultaneously, after left and right acoustic channels simulated audio signal and left and right acoustic channels difference audio signal carry out filtering, amplification and impedance matching respectively through audio frequency processing circuit analogy signal processing unit and differential signal processing unit, export to after two-way left and right acoustic channels simulated audio signal after process is carried out mixing after audio power amplifying circuit carries out power amplification and export by putting device loud speaker outward, realize the effect of background music with this.

The utility model effectively reliably can realize simulation and difference two assonance source sharing audio power amplifier, thus the input of compatible analog and difference two class audio frequency signal, avoid disturbing mutually, simultaneously also can realize two-way audio signal export separately or carry out mixing output, and hardware cost is few, volume is little, low in energy consumption.Global design structure is simple, easy to use, and safe and reliable.

Described just in order to the utility model is described above, be construed as the utility model and be not limited to above embodiment, meet the various variants of the utility model thought all within protection range of the present utility model.

Claims (5)

1. one kind realizes the circuit of simulation and difference two assonance source sharing audio power amplifier, it is characterized in that, described circuit comprises Switching Power Supply input circuit, simulation source of sound input circuit, difference source of sound input circuit, source of sound input selection circuit, audio frequency processing circuit, audio power amplifying circuit and loud speaker, wherein

Described Switching Power Supply input circuit is connected with described audio frequency processing circuit and audio power amplifying circuit, for energy storage and the filtering of power supply, for whole system is powered;

Described simulation source of sound input circuit is connected with described source of sound input selection circuit, for providing simulated audio signal source for source of sound input selection circuit;

Described difference source of sound input circuit is connected with described source of sound input selection circuit, for providing difference audio signal source for source of sound input selection circuit;

Described source of sound input selection circuit is connected with described audio frequency processing circuit, for selecting the audio signal source entering audio frequency processing circuit;

Described audio frequency processing circuit is connected with described audio power amplifying circuit, for the filtering of two class audio frequency signals, amplification and impedance matching, after simulation/difference audio signal that source of sound input selection circuit exports is processed, export to audio power amplifying circuit, audio power amplifying circuit is play through described loud speaker after audio signal is amplified process.

2. circuit according to claim 1, is characterized in that, described audio frequency processing circuit comprises simulation source of sound processing unit and difference source of sound processing unit; Described simulation source of sound processing unit is used for carrying out filtering, amplification and impedance matching to simulated audio signal, then the simulated audio signal after process is exported to described audio power amplifying circuit; Described difference source of sound processing unit is used for carrying out filtering, amplification and impedance matching to difference audio signal, then the difference audio signal after process is exported to described audio power amplifying circuit.

3. circuit according to claim 1, is characterized in that, the integrated operational amplifier model used by described audio frequency processing circuit is: NE5532D, and this operational amplifier adopts single power supply.

4. circuit according to claim 2, it is characterized in that, described simulation source of sound processing unit includes the 3rd resistance R3, 4th resistance R4, second electric capacity C2, second resistance R2, first electric capacity C1, first resistance R1, 5th resistance R5, 6th resistance R6, 4th electric capacity C4, first integrated operational amplifier U1A, 3rd electric capacity C3, 8th resistance R8, tenth resistance R10, 6th electric capacity C6, 9th resistance R9, 5th electric capacity C5, 7th resistance R7, first integrated operational amplifier U1B, 7th electric capacity C7, wherein one end of the 3rd resistance R3 is connected with the right channel analog audio signal that described source of sound input selection circuit exports, and the other end is connected to one end of the 4th resistance R4 and the second electric capacity C2, the other end ground connection of the 4th resistance R4, the other end of the second electric capacity C2 is connected to one end of the second resistance R2, the other end of the second resistance R2 is connected to the first electric capacity C1, one end of first resistance R1 and the inverting input Pin2 of the first integrated operational amplifier U1A, the output Pin1 of the first integrated operational amplifier U1A is connected to the first electric capacity C1 respectively, the other end of the first resistance R1 and one end of the 3rd electric capacity C3, and the other end of the 3rd electric capacity C3 is connected to described audio power amplifying circuit as right channel analog audio signal output, the in-phase input end Pin3 of the first integrated operational amplifier U1A is connected to the 5th resistance R5 respectively, one end of 6th resistance R6 and the 4th electric capacity C4, other one end of 5th resistance R5 is connected to+12V power supply, other one end ground connection of the 6th resistance R6 and the 4th electric capacity C4, the left channel analog audio signal that one end and the source of sound input selection circuit of the 8th resistance R8 export is connected, and the other end is connected to one end of the tenth resistance R10 and the 6th electric capacity C6, the other end ground connection of the tenth resistance R10, the other end of the 6th electric capacity C6 is connected to one end of the 9th resistance R9, the other end of the 9th resistance R9 is connected to the 5th electric capacity C5, one end of 7th resistance R7 and the inverting input Pin6 of the first integrated operational amplifier U1B, the output Pin7 of the first integrated operational amplifier U1B is connected to the 5th electric capacity C5 respectively, the other end of the 7th resistance R7 and one end of the 7th electric capacity C7, and the other end of the 7th electric capacity C7 is connected to audio power amplifying circuit as left channel analog audio signal output, the in-phase input end Pin5 of the first integrated operational amplifier U1B is connected to the in-phase input end Pin3 of the first integrated operational amplifier U1A.

5. circuit according to claim 2, it is characterized in that, described difference source of sound processing unit includes the 13 resistance R13, 14 resistance R14, 9th electric capacity C9, 11 resistance R11, 8th electric capacity C8, 12 resistance R12, 16 resistance R16, 18 resistance R18, 12 electric capacity C12, 17 resistance R17, 15 resistance R15, 11 electric capacity C11, second integrated operational amplifier U2A, tenth electric capacity C10, 20 resistance R20, 22 resistance R22, 14 electric capacity C14, 21 resistance R21, 13 electric capacity C13, 19 resistance R19, 24 resistance R24, 26 resistance R26, 17 electric capacity C17, 25 resistance R25, 23 resistance R23, 16 electric capacity C16, second integrated operational amplifier U2B, 15 electric capacity C15, wherein, the anode of the R channel difference audio signal that one end and the described source of sound input selection circuit of the 13 resistance R13 export is connected, and the other end is connected to one end of the 14 resistance R14 and the 9th electric capacity C9, the other end ground connection of the 14 resistance R14, the other end of the 9th electric capacity C9 is connected to one end of the 11 resistance R11, the other end of the 11 resistance R11 is connected to the 8th electric capacity C8, one end of 12 resistance R12 and the inverting input Pin2 of the second integrated operational amplifier U2A, the output Pin1 of the second integrated operational amplifier U2A is connected to the 8th electric capacity C8 respectively, the other end of the 12 resistance R12 and one end of the tenth electric capacity C10, and the other end of the tenth electric capacity C10 is connected to audio power amplifying circuit as right channel analog audio signal output, the negative terminal of the R channel difference audio signal that one end and the source of sound input selection circuit of the 16 resistance R16 export is connected, and the other end is connected to one end of the 18 resistance R18 and the 12 electric capacity C12, the other end ground connection of the 18 resistance R18, the other end of the 12 electric capacity C12 is connected to one end of the 17 resistance R17, the other end of the 17 resistance R17 is connected to the 15 resistance R15, one end of 11 electric capacity C11 and the in-phase input end Pin3 of the second integrated operational amplifier U2A, the other end of the 15 resistance R15 and the 11 electric capacity C11 is connected to in-phase input end Pin3 and Pin5 of the first integrated operational amplifier U1, the anode of L channel difference audio signal that simultaneously one end of the 20 resistance R20 exports with source of sound input selection circuit is connected, and the other end is connected to one end of the 22 resistance R22 and the 14 electric capacity C14, the other end ground connection of the 22 resistance R22, the other end of the 14 electric capacity C14 is connected to one end of the 21 resistance R21, the other end of the 21 resistance R21 is connected to the 13 electric capacity C13, one end of 19 resistance R19 and the inverting input Pin6 of the second integrated operational amplifier U2B, the output Pin7 of the second integrated operational amplifier U2B is connected to the 13 electric capacity C13 respectively, the other end of the 19 resistance R19 and one end of the 15 electric capacity C15, and the other end of the 15 electric capacity C15 is connected to audio power amplifying circuit as left channel analog audio signal output, the negative terminal of the L channel difference audio signal that one end and the source of sound input selection circuit of the 24 resistance R24 export is connected, and the other end is connected to one end of the 26 resistance R26 and the 17 electric capacity C17, the other end of the 26 resistance R26 is connected to ground, the other end of the 17 electric capacity C17 is connected to one end of the 25 resistance R25, the other end of the 25 resistance R25 is connected to the 23 resistance R23, one end of 16 electric capacity C16 and the in-phase input end Pin5 of the second integrated operational amplifier U2B, the other end of the 23 resistance R23 and the 16 electric capacity C16 is also connected to in-phase input end Pin3 and Pin5 of the first integrated operational amplifier U1.