CN109688514A

CN109688514A - A kind of high-voltage digital audio power amplification system

Info

Publication number: CN109688514A
Application number: CN201811597824.6A
Authority: CN
Inventors: 周佳宁; 张海军
Original assignee: Shanghai Awinic Technology Co Ltd
Current assignee: Shanghai Awinic Technology Co Ltd
Priority date: 2018-12-26
Filing date: 2018-12-26
Publication date: 2019-04-26
Anticipated expiration: 2038-12-26
Also published as: CN109688514B

Abstract

The present invention provides a kind of high-voltage digital audio power amplification systems, the high-voltage digital audio power amplification system passes through setting current source generation module, for providing electric current for first subsystem and second subsystem, so that the high-voltage digital audio power amplification system works in higher voltage range, and then improve the output power of the high-voltage digital audio power amplification system.

Description

A kind of high-voltage digital audio power amplification system

Technical field

The present invention relates to semiconductor integrated circuit technology fields, more specifically to a kind of high-voltage digital audio frequency power amplifier System.

Background technique

D-type audio power amplifier is widely applied since it is more than 80% efficiency at present, especially efficiently Rate is most important for mobile device, can not only lengthen working hours, and can also reduce the calorific value of the handheld devices such as mobile phone.

In application fields such as mobile phones, volume and sound quality can have an important influence on user experience, and current trend is audio Power amplifier exports higher power to obtain bigger volume and preferable sound quality.

But digital audio power amplification system cannot achieve High voltage output at present.

Summary of the invention

In view of this, technical solution is such as to solve the above problems, the present invention provides a kind of high-voltage digital audio power amplification system Under:

A kind of high-voltage digital audio power amplification system, comprising: the first subsystem, the second subsystem, the first feedback module, second Feedback module and current source generation module；

First subsystem includes: the first current source module and the first power amplifier loop, first current source module Output end is connect with the first input end of the first power amplifier loop, and the input terminal of first current source module is as described The signal input part of one subsystem, for receiving PWMP signal, the output end of the first power amplifier loop is as first son The output end of system；

Second subsystem includes: the second current source module and the second power amplifier loop, second current source module Output end is connect with the first input end of the second power amplifier loop, and the input terminal of second current source module is as described The signal input part of two subsystems, for receiving PWMN signal, the output end of the second power amplifier loop is as second son The output end of system；

One end of first feedback module is connect with the first input end of the first power amplifier loop, the other end with it is described The output end of first power amplifier loop connects；

One end of second feedback module is connect with the first input end of the second power amplifier loop, the other end with it is described The output end of second power amplifier loop connects；

The first end of the current source generation module is connect with the first input end of the first power amplifier loop, second end with The first input end of the second power amplifier loop connects, and third end and power supply connect for press bond, the 4th end and voltage input end It connects, the 5th end grounding connection；

Wherein, the current source generation module is used to provide electric current for first subsystem and second subsystem, To improve the output power of the high-voltage digital audio power amplification system.

Preferably, in above-mentioned high-voltage digital audio power amplification system, first feedback module includes: first resistor；

Wherein, one end of the first resistor is connect with the first input end of the first power amplifier loop, the other end and institute State the output end connection of the first power amplifier loop；

Second feedback module includes: second resistance；

Wherein, one end of the second resistance is connect with the first input end of the second power amplifier loop, the other end and institute State the output end connection of the second power amplifier loop.

Preferably, in above-mentioned high-voltage digital audio power amplification system, the current source generation module includes: the first field-effect Pipe, the second field-effect tube, third field-effect tube, operational amplifier and 3rd resistor；

Wherein, the inverting input terminal of the operational amplifier and the power supply be for press bond, the operational amplifier Non-inverting input terminal is connect with the first end of the 3rd resistor, and the second end of the 3rd resistor and the voltage input end connect It connects；

The drain electrode of first field-effect tube is connect with the first end of the 3rd resistor；

The drain electrode of second field-effect tube is connect with the first input end of the first power amplifier loop；

The drain electrode of the third field-effect tube is connect with the second input terminal of the second power amplifier loop；

The grid of the grid of first field-effect tube, the grid of second field-effect tube and the third field-effect tube It is connect with the output end of the operational amplifier；

The source electrode of the source electrode of first field-effect tube, the source electrode of second field-effect tube and the third field-effect tube Equal grounding connection.

Preferably, in above-mentioned high-voltage digital audio power amplification system, the resistance value of the 3rd resistor is the first resistor Twice of resistance value.

Preferably, in above-mentioned high-voltage digital audio power amplification system, first field-effect tube, second field-effect tube It is N-type field-effect tube with the third field-effect tube.

Preferably, in above-mentioned high-voltage digital audio power amplification system, first field-effect tube, second field-effect tube It is identical with the breadth length ratio of the third field-effect tube.

Preferably, in above-mentioned high-voltage digital audio power amplification system, the high-voltage digital audio power amplification system, further includes: Common-mode voltage generation module；

Second input terminal of the second input terminal of the first power amplifier loop and the second power amplifier loop with it is described total The output end of mode voltage generation module connects.

Preferably, in above-mentioned high-voltage digital audio power amplification system, the common-mode voltage generation module includes: the 4th electricity Resistance, the 5th resistance, the 6th resistance and capacitor；

The first end of 4th resistance and the power supply are for press bond, the second end of the 4th resistance and described the The first end of five resistance connects, the second end grounding connection of the 5th resistance；

The first end of 6th resistance is connect with the second end of the 4th resistance, the second end of the 6th resistance with The first end of the capacitor connects, the second end grounding connection of the capacitor；

Output end of the connecting node of 6th resistance and the capacitor as the common-mode voltage generation module.

Preferably, in above-mentioned high-voltage digital audio power amplification system, the resistance value of the 4th resistance and the 5th resistance Resistance value it is identical.

Preferably, in above-mentioned high-voltage digital audio power amplification system, the output end voltage of the common-mode voltage generation module It is the power supply for the half of pressure side.

Compared to the prior art, what the present invention realized has the beneficial effect that

A kind of high-voltage digital audio power amplification system provided by the invention is by setting current source generation module, for being described First subsystem and second subsystem provide electric current, so that high-voltage digital audio power amplification system work is in higher electricity Range is pressed, and then improves the output power of the high-voltage digital audio power amplification system.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The embodiment of invention for those of ordinary skill in the art without creative efforts, can also basis The attached drawing of offer obtains other attached drawings.

Fig. 1 is a kind of structural schematic diagram of high-voltage digital audio power amplification system provided in an embodiment of the present invention；

Fig. 2 is another structural schematic diagram of high-voltage digital audio power amplification system provided in an embodiment of the present invention；

Fig. 3 is the structural schematic diagram of current source generation module provided in an embodiment of the present invention；

Fig. 4 is a kind of structural schematic diagram of common-mode voltage generation module provided in an embodiment of the present invention；

Fig. 5 is a kind of waveform diagram of first capacitor charge and discharge provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, with reference to the accompanying drawing and specific real Applying mode, the present invention is described in further detail.

With reference to Fig. 1, Fig. 1 is a kind of structural schematic diagram of high-voltage digital audio power amplification system provided in an embodiment of the present invention, It is that treated that pwm signal is converted into analog signal by digital module that it, which is acted on, and the high-voltage digital audio power amplification system includes: First subsystem, the second subsystem, the first feedback module 13, the second feedback module 17 and current source generation module 14；

First subsystem includes: the first current source module 11 and the first power amplifier loop 12, the first current source mould The output end of block 11 is connect with the first input end Vip of the first power amplifier loop 12, first current source module 11 it is defeated Enter signal input part of the end as first subsystem, for receiving PWMP signal, the output of the first power amplifier loop 12 Hold the output end VOP as first subsystem；

Second subsystem includes: the second current source module 15 and the second power amplifier loop 16, the second current source mould The output end of block 15 is connect with the first input end Vin of the second power amplifier loop 16, second current source module 15 it is defeated Enter signal input part of the end as second subsystem, for receiving PWMN signal, the output of the second power amplifier loop 16 Hold the output end VON as second subsystem；

One end of first feedback module 13 is connect with the first input end Vip of the first power amplifier loop 12, another End is connect with the output end of the first power amplifier loop 12；

One end of second feedback module 17 is connect with the first input end Vin of the second power amplifier loop 16, another End is connect with the output end of the second power amplifier loop 16；

The first end of the current source generation module 14 is connect with the first input end Vip of the first power amplifier loop 12, Second end is connect with the first input end Vin of the second power amplifier loop 16, and third end and power supply are for pressure side VDD connection, and the 4th End is connect with voltage input end PVDD, the 5th end grounding connection；

Wherein, the current source generation module 14 is used to provide electricity for first subsystem and second subsystem Stream, to improve the output power of the high-voltage digital audio power amplification system.

As can be seen from the above description, a kind of high-voltage digital audio power amplification system provided by the invention is produced by setting current source Raw module, for providing electric current for first subsystem and second subsystem, so that the high-voltage digital audio frequency power amplifier System work improves the output power of the high-voltage digital audio power amplification system in higher voltage range.

Further, as shown in Figure 1, the high-voltage digital audio power amplification system, further includes: common-mode voltage generation module 18；

Second input terminal of the second input terminal of the first power amplifier loop 12 and the second power amplifier loop 16 is and institute State the output end VREF connection of common-mode voltage generation module 18.

In this embodiment, the common-mode voltage generation module 18 is for generating common mode voltage signal, for remaining described The stability of the output signal of first current source module 11 and second current source module 12.

Wherein, the output end voltage of the common-mode voltage generation module 18 is half of the power supply for pressure side VDD.

It further, is another knot of high-voltage digital audio power amplification system provided in an embodiment of the present invention with reference to Fig. 2, Fig. 2 Structure schematic diagram, first current source module 11 include the first current source IDAC1, the second current source IDAC2, switch A and switch B。

The input terminal and power supply of first current source IDAC1 for pressure side VDD connection, the output end of the first current source IDAC1 with The input terminal of switch A connects, and the output end of switch A is connect with the input terminal of switch B, and the output end of switch B passes through the second electric current Input terminal of the control terminal of source IDAC2 grounding connection, switch A and switch B as first current source module 11, for receiving PWMP signal.

Further, as shown in Fig. 2, the first power amplifier loop 12 includes the first operational amplifier 21, the drive of power amplifier loop Dynamic model block 23, first capacitor C1, field-effect tube P1 and field-effect tube N1；

The inverting input terminal of first operational amplifier 21 is connect with the output end of first current source module 11, the first fortune The non-inverting input terminal for calculating amplifier 21 is connect with the output end VREF of common-mode voltage generation module 18, the first operational amplifier 21 Output end is connect with the input terminal of the power amplifier loop drive module 23, the first output end of the power amplifier loop drive module 23 It is connect with the grid of the field-effect tube P1, the second output terminal of the power amplifier loop drive module 23 and the field-effect tube N1 Grid connection.

The source electrode of the field-effect tube P1 is connect with voltage input end PVDD, the drain electrode of the field-effect tube P1 and the field The drain electrode of effect pipe N1 connects, the source electrode grounding connection of the field-effect tube N1, the field-effect tube P1 and the field-effect tube Output end VOP of the connecting node of N1 as the first power amplifier loop.

The first end of the first capacitor C1 is connect with the output end of first operational amplifier 21, second end with it is described The inverting input terminal of first operational amplifier 21 connects.

Further, as shown in Fig. 2, second current source module 15 includes third current source IDAC3, the 4th current source IDAC4, switch C and switch D.

The input terminal and power supply of third current source IDAC3 for pressure side VDD connection, the output end of third current source IDAC3 with The input terminal of switch C connects, and the output end of switch C is connect with the input terminal of switch D, and the output end of switch D passes through the 4th electric current Input terminal of the control terminal of source IDAC4 grounding connection, switch C and switch D as second current source module 15, for receiving PWMN signal.

Further, as shown in Fig. 2, the second power amplifier loop 16 includes second operational amplifier 22, the drive of power amplifier loop Dynamic model block 24, the second capacitor C2, field-effect tube P2 and field-effect tube N2；

The inverting input terminal of second operational amplifier 22 is connect with the output end of second current source module 16, the second fortune The non-inverting input terminal for calculating amplifier 22 is connect with the output end VREF of common-mode voltage generation module 18, second operational amplifier 22 Output end is connect with the input terminal of the power amplifier loop drive module 24, the first output end of the power amplifier loop drive module 24 It is connect with the grid of the field-effect tube P2, the second output terminal of the power amplifier loop drive module 24 and the field-effect tube N2 Grid connection.

The source electrode of the field-effect tube P2 is connect with voltage input end PVDD, the drain electrode of the field-effect tube P2 and the field The drain electrode of effect pipe N2 connects, the source electrode grounding connection of the field-effect tube N2, the field-effect tube P2 and the field-effect tube Output end VON of the connecting node of N2 as the second power amplifier loop.

The first end of the second capacitor C2 is connect with the output end of the second operational amplifier 22, second end with it is described The inverting input terminal of second operational amplifier 22 connects.

Further, as shown in Fig. 2, first feedback module 13 includes: first resistor Rfb1；

Wherein, one end of the first resistor Rfb1 is connect with the first input end of the first power amplifier loop 12, another End is connect with the output end of the first power amplifier loop 12；

Second feedback module 16 includes: second resistance Rfb2；

Wherein, one end of the second resistance Rfb2 is connect with the first input end of the second power amplifier loop 16, another End is connect with the output end of the second power amplifier loop 16.

It further, is the structural schematic diagram of current source generation module provided in an embodiment of the present invention, institute with reference to Fig. 3, Fig. 3 Stating current source generation module 14 includes: the first field-effect tube M1, the second field-effect tube M2, third field-effect tube M3, operation amplifier Device 31 and 3rd resistor R3；

Wherein, the inverting input terminal of the operational amplifier 31 is connect with the power supply for pressure side VDD, the operation amplifier The non-inverting input terminal of device 31 is connect with the first end of the 3rd resistor R3, the second end of the 3rd resistor R3 and the voltage Input terminal PVDD connection；

The drain electrode of the first field-effect tube M1 is connect with the first end of the 3rd resistor R3；

The drain electrode of the second field-effect tube M2 is connect with the first input end Vip of the first power amplifier loop 12；

The drain electrode of the third field-effect tube M3 is connect with the second input terminal Vin of the second power amplifier loop 16；

The grid and the third field-effect tube M3 of the grid of the first field-effect tube M1, the second field-effect tube M2 Grid connect with the output end of the operational amplifier 31；

The source electrode and the third field-effect tube M3 of the source electrode of the first field-effect tube M1, the second field-effect tube M2 Source grounding connection.

Further, the resistance value of the 3rd resistor R3 is twice of the resistance value of the first resistor Rfb1.

The first field-effect tube M1, the second field-effect tube M2 and the third field-effect tube M3 are N-type field effect Ying Guan.

The breadth length ratio phase of the first field-effect tube M1, the second field-effect tube M2 and the third field-effect tube M3 Together.

It further, is that a kind of structure of common-mode voltage generation module provided in an embodiment of the present invention is shown with reference to Fig. 4, Fig. 4 It is intended to, the common-mode voltage generation module 18 includes: the 4th resistance R4, the 5th resistance R5, the 6th resistance R6 and capacitor C；

The first end of the 4th resistance R4 is connect with the power supply for pressure side PVDD, the second end of the 4th resistance R4 It is connect with the first end of the 5th resistance R5, the second end grounding connection of the 5th resistance R5；

The first end of the 6th resistance R6 is connect with the second end of the 4th resistance R4, and the of the 6th resistance R6 Two ends are connect with the first end of the capacitor C, the second end grounding connection of the capacitor C；

Output end of the connecting node of the 6th resistance R6 and capacitor C as the common-mode voltage generation module 18 VREF。

Further, the resistance value of the 4th resistance R4 is identical with the resistance value of the 5th resistance R5.

High-voltage digital audio power amplification system based on above-mentioned offer, when the output end electricity of the common-mode voltage generation module 18 When pressure VREF is half of the power supply for pressure side VDD, the high-voltage digital audio power amplification system just be can work normally.

It is former with the work of the first subsystem below since the working principle of the first subsystem and the second subsystem is identical Reason is described.

When VOP=" 1 ", the output end VOP of the first subsystem passes through first resistor Rfb1 and current source generation module 14 It charges to first capacitor C1, the electric current of charging is labeled as I_{Rfb1_a}；

When VOP=" 0 ", the output end VOP of the first subsystem passes through first resistor Rfb1 and current source generation module 14 It discharges to first capacitor C1, the electric current of electric discharge is labeled as I_{Rfb1_b}；

Due to high-voltage digital audio power amplification system work normally in the case where, I_{Rfb1_a}=I_{Rfb1_b}, and it is labeled as I_Rfb1。

That is, I_{Rfb1_a}=I_{Rfb1_b}=I_Rf1b

Wherein, I_Rfb1Indicate that the output end VOP of the first subsystem passes through first resistor Rfb1 and current source generation module 14 To the current value of first capacitor C1 charge or discharge.

Since the output end voltage VREF of the common-mode voltage generation module 18 is half of the voltage for pressure side VDD, Therefore it can obtain:

Referring to figs. 2 and 3 it is found that

And then can obtain,

Wherein, I_SNK1Indicate that current source generation module 14 is the current value that the first subsystem provides.

And then can obtain,

As shown in figure 3, due to twice of resistance value that the resistance value of the 3rd resistor R3 is the first resistor Rfb1, and institute It is identical with the breadth length ratio of the third field-effect tube M3 to state the first field-effect tube M1, the second field-effect tube M2.

It therefore follows that

Wherein, I_SNK2Indicate that current source generation module 14 is the current value that the second subsystem provides.

Also, pass through the relationship between analysis input duty cycle and output signal, it is found that refer to Fig. 5, Fig. 5 is this A kind of waveform diagram for the first capacitor charge and discharge that inventive embodiments provide, first capacitor C1 filling within a PWMP period Electric discharge is divided into 4 stages.

In the T1 stage: PWMP=" 1 " is high level, and VOP=" 1 " is high level, and the first current source IDAC1 is to the first electricity Hold C1 charging, the output end VOP of the first subsystem is by first resistor Rfb1 and the current source generation module 14 to the first electricity Hold C1 charging, at this time the electric current of first capacitor C1 are as follows:

I_{C1_T1}=I_DAC+I_Rfb1

In the T2 stage: PWMP=" 1 " is high level, and VOP=" 0 " is low level, and the first current source IDAC1 is to the first electricity Hold C1 charging, the output end VOP of the first subsystem is by first resistor Rfb1 and the current source generation module 14 to the first electricity Hold C1 electric discharge, at this time the electric current of first capacitor C1 are as follows:

I_{C1_T2}=I_DAC-I_Rfb1

In the T3 stage: PWMP=" 0 " is low level, and VOP=" 0 " is low level, and the second current source IDAC2 is to the first electricity Hold C1 electric discharge, the output end VOP of the first subsystem is by first resistor Rfb1 and the current source generation module 14 to the first electricity Hold C1 electric discharge, at this time the electric current of first capacitor C1 are as follows:

I_{C1_T3}=-I_DAC-I_Rfb1

In the T4 stage: PWMP=" 0 " is low level, and VOP=" 1 " is high level, and the second current source IDAC2 is to the first electricity Hold C1 electric discharge, the output end VOP of the first subsystem is by first resistor Rfb1 and the current source generation module 14 to the first electricity Hold C1 charging, at this time the electric current of first capacitor C1 are as follows:

I_{C1_T4}=-I_DAC+I_Rfb1

Since the first subsystem is in course of normal operation, the charge and discharge electric equilibrium of first capacitor C1, that is,

I_{C1_T1}×t1+I_{C1_T2}× t2=-I_{C1_T3}×t3-I_{C1_T4}×t4

Wherein, t1, t2, t3, t4 are respectively the time for being in each stage, I_DACFor the electricity of the first current source IDAC1 and second The electric current of stream source IDAC2.

It can be obtained by arranging above-mentioned formula,

I_DAC×(t1+t2)-I_DAC× (t3+t4)=I_Rfb1×(t2+t3)-I_Rfb1×(t1+t4)

Wherein, t1+t2=D_IN× T, t3+t4=(1-D_IN) × T, t1+t4=D_OUT× T, t2+t3=(1-D_OUT)×T

Wherein, D_INFor the duty ratio of PWMP, D_OUTFor the duty ratio of VOP, T is the period of PWMP and VOP.

Arrangement can obtain,

It follows that

The output voltage VO P of so the first subsystem are as follows:

VOP=D_OUT×PVDD

That is,

By the above formula, VOP be one withFor common-mode point, 50% input duty cycle D_INCentered on Signal.

The output voltage VO N of the second subsystem, no longer illustrates herein known to similarly.

So, total output voltage V of digital audio power amplification system_OUTFor,

V_OUT=VOP-VON

That is,

V_OUT=2 × Rfb1 × I_DAC(2×D_IN-1)

It follows that the gain of the high-voltage digital audio power amplification system is 2 × Rfb1 × I_DAC。

As can be seen from the above description, a kind of high-voltage digital audio power amplification system provided by the invention is produced by setting current source Raw module, for providing electric current for first subsystem and second subsystem, so that the high-voltage digital audio frequency power amplifier System work improves the output power of the high-voltage digital audio power amplification system in higher voltage range, to enhance loudspeaker Loudness.

A kind of high-voltage digital audio power amplification system provided by the present invention is described in detail above, it is used herein A specific example illustrates the principle and implementation of the invention, and the above embodiments are only used to help understand Method and its core concept of the invention；At the same time, for those skilled in the art is having according to the thought of the present invention There will be changes in body embodiment and application range, in conclusion the content of the present specification should not be construed as to the present invention Limitation.

It should be noted that all the embodiments in this specification are described in a progressive manner, each embodiment weight Point explanation is the difference from other embodiments, and the same or similar parts between the embodiments can be referred to each other. For the device disclosed in the embodiment, since it is corresponded to the methods disclosed in the examples, so being described relatively simple, phase Place is closed referring to method part illustration.

It should also be noted that, herein, relational terms such as first and second and the like are used merely to one Entity or operation are distinguished with another entity or operation, without necessarily requiring or implying between these entities or operation There are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to contain Lid non-exclusive inclusion, so that the element that the process, method, article or equipment including a series of elements is intrinsic, It further include either the element intrinsic for these process, method, article or equipments.In the absence of more restrictions, The element limited by sentence "including a ...", it is not excluded that in the process, method, article or equipment including the element In there is also other identical elements.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one The widest scope of cause.

Claims

1. a kind of high-voltage digital audio power amplification system characterized by comprising the first subsystem, the second subsystem, the first feedback Module, the second feedback module and current source generation module；

First subsystem includes: the first current source module and the first power amplifier loop, the output of first current source module End is connect with the first input end of the first power amplifier loop, and the input terminal of first current source module is as first son The signal input part of system, for receiving PWMP signal, the output end of the first power amplifier loop is as first subsystem Output end；

Second subsystem includes: the second current source module and the second power amplifier loop, the output of second current source module End is connect with the first input end of the second power amplifier loop, and the input terminal of second current source module is as second son The signal input part of system, for receiving PWMN signal, the output end of the second power amplifier loop is as second subsystem Output end；

One end of first feedback module is connect with the first input end of the first power amplifier loop, the other end and described first The output end of power amplifier loop connects；

One end of second feedback module is connect with the first input end of the second power amplifier loop, the other end and described second The output end of power amplifier loop connects；

The first end of the current source generation module is connect with the first input end of the first power amplifier loop, second end with it is described The first input end of second power amplifier loop connects, and for press bond, the 4th end is connect with voltage input end for third end and power supply, the Five end grounding connections；

Wherein, the current source generation module is used to provide electric current for first subsystem and second subsystem, to mention The output power of the high high-voltage digital audio power amplification system.

2. high-voltage digital audio power amplification system according to claim 1, which is characterized in that the first feedback module packet It includes: first resistor；

Wherein, one end of the first resistor is connect with the first input end of the first power amplifier loop, the other end and described the The output end of one power amplifier loop connects；

Second feedback module includes: second resistance；

Wherein, one end of the second resistance is connect with the first input end of the second power amplifier loop, the other end and described the The output end of two power amplifier loops connects.

3. high-voltage digital audio power amplification system according to claim 2, which is characterized in that the current source generation module packet It includes: the first field-effect tube, the second field-effect tube, third field-effect tube, operational amplifier and 3rd resistor；

Wherein, the inverting input terminal of the operational amplifier and the power supply are for press bond, the same phase of the operational amplifier Input terminal is connect with the first end of the 3rd resistor, and the second end of the 3rd resistor is connect with the voltage input end；

The grid of the grid of first field-effect tube, the grid of second field-effect tube and the third field-effect tube with The output end of the operational amplifier connects；

The source electrode of the source electrode of first field-effect tube, the source electrode of second field-effect tube and the third field-effect tube connects Ground connection.

4. high-voltage digital audio power amplification system according to claim 3, which is characterized in that the resistance value of the 3rd resistor is Twice of the resistance value of the first resistor.

5. high-pressure data audio power amplification system according to claim 3, which is characterized in that first field-effect tube, institute Stating the second field-effect tube and the third field-effect tube is N-type field-effect tube.

6. high-pressure data audio power amplification system according to claim 3, which is characterized in that first field-effect tube, institute It is identical with the breadth length ratio of the third field-effect tube to state the second field-effect tube.

7. high-pressure data audio power amplification system according to claim 1, which is characterized in that the high-voltage digital audio frequency power amplifier System, further includes: common-mode voltage generation module；

Second input terminal of the second input terminal of the first power amplifier loop and the second power amplifier loop is electric with the common mode Press the output end connection of generation module.

8. high-pressure data audio power amplification system according to claim 7, which is characterized in that the common-mode voltage generation module It include: the 4th resistance, the 5th resistance, the 6th resistance and capacitor；

The first end of 4th resistance and the power supply are for press bond, the second end of the 4th resistance and the 5th electricity The first end of resistance connects, the second end grounding connection of the 5th resistance；

The first end of 6th resistance is connect with the second end of the 4th resistance, the second end of the 6th resistance with it is described The first end of capacitor connects, the second end grounding connection of the capacitor；

9. high-pressure data audio power amplification system according to claim 8, which is characterized in that the resistance value of the 4th resistance and The resistance value of 5th resistance is identical.

10. high-pressure data audio power amplification system according to claim 7, which is characterized in that the common-mode voltage generates mould The output end voltage of block is half of the power supply for pressure side.