CN108923655A

CN108923655A - A kind of high efficiency binary channels output Mono-pole switch power amplifier

Info

Publication number: CN108923655A
Application number: CN201810521868.4A
Authority: CN
Inventors: 钟曙
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-05-28
Filing date: 2018-05-28
Publication date: 2018-11-30

Abstract

A kind of high efficiency binary channels provided by the invention exports Mono-pole switch power amplifier, including half-bridge inversion circuit, frequency converter CH1, frequency converter CH2, active clamp circuit, transformer；The half-bridge inversion circuit, frequency converter CH1, frequency converter CH2 are connected by transformer.TC-SSA circuit of the circuit based on active clamp, circuit structure is simple, it can be achieved that the single-stage power conversion and leakage inductance energy in two channels recycle, and has the advantages that high efficiency low distortion.The circuit, by being multiplexed TC-SSA circuit, significantly reduces switching tube and number transformer, simplifies circuit structure compared with using multiple single channel SSA.Meanwhile active clamp circuit greatly reduces the stress of switch tube voltage, and realizes leakage inductance and the utilization of filter inductance energy regenerating, improves system effectiveness.

Description

A kind of high efficiency binary channels output Mono-pole switch power amplifier

Technical field

The present invention relates to a kind of high efficiency binary channels to export Mono-pole switch power amplifier, belongs to electricity field.

Background technique

Two-channel stereo audio frequency power amplifier has very extensive application, Mono-pole switch power amplifier (Single stage Amplifier, SSA) SSA passes through DC bus without image of Buddha D class power amplifier like that and powers for multiple power amplifier channels, thus realizes SSA Multichannel output is relatively difficult.And existing binary channels (Two Channel, TC) SSA circuit is complicated, each channel needs A transformer is wanted, furthermore there is frequency converter Commutation Problem.

Summary of the invention

Technical problem：In order to solve the defects of prior art, the present invention provides a kind of high efficiency binary channels to export single-stage Close power amplifier circuit.

Technical solution：A kind of high efficiency binary channels output Mono-pole switch power amplifier provided by the invention, including half-bridge are inverse Power transformation road, frequency converter CH1, frequency converter CH2, active clamp circuit, transformer；

The half-bridge inversion circuit includes switching tube S_P1, switching tube S_P2, capacitor C_P1, capacitor C_P2, direct-current input power supplying V_dc； The switching tube S_P1Source electrode and switching tube S_P2Drain electrode connection, and with capacitor C_P1With capacitor C_P2Series circuit it is in parallel, and Join circuit both ends respectively with direct-current input power supplying V_dcAnode connected with cathode；

The frequency converter CH1 includes switching tube S₁₁, switching tube S₁₂, switching tube S₁₄With switching tube S₁₃, the switch Pipe S₁₁Source electrode and switching tube S₁₂Source electrode connect to form two-way switch pipe S₁₁-S₁₂, the switching tube S₁₄Source electrode and switch Pipe S₁₃Source electrode connect to form two-way switch pipe S₁₄-S₁₃；Switching tube S₁₂Drain electrode and switching tube S₁₃Drain electrode connection, and with Filter inductance L₁One end connection；Filter inductance L₁Other end and filter capacitor C₁With load resistance R₁It is formed by parallel connection Circuit connection；Filter capacitor C₁With load R₁Parallel circuit other end is formed by connect with reference；

The frequency converter CH2 includes switching tube S₂₁, switching tube S₂₂, switching tube S₂₄With switching tube S₂₃, the switch Pipe S₂₁Source electrode and switching tube S₂₂Source electrode connect to form two-way switch pipe S₂₁-S₂₂, the switching tube S₂₄Source electrode and switch Pipe S₂₃Source electrode connect to form two-way switch pipe S₂₄-S₂₃；Switching tube S₂₂Drain electrode and switching tube S₂₃Drain electrode connection, and with Filter inductance L₂One end connection；Filter inductance L₂Other end and filter capacitor C₂With load resistance R₂It is formed by parallel connection Circuit connection；Filter capacitor C₂With load R₂Parallel circuit other end is formed by connect with reference；

The half-bridge inversion circuit, frequency converter CH1, frequency converter CH2 are connected by transformer；

The transformer includes a primary coil and a secondary coil, and secondary coil is that the number of turns can be changed secondary coil； Primary coil one end of transformer is connected to switching tube S_P1Source electrode and switching tube S_P2Drain electrode between, the other end is connected to electricity Hold C_P1With capacitor C_P2Between；Secondary coil one end of transformer respectively with two-way switch pipe S₁₁-S₁₂, two-way switch pipe S₂₁-S₂₂ Connection, the other end respectively with two-way switch pipe S₁₄-S₁₃, two-way switch pipe S₂₄-S₂₃Connection；

The active clamp circuit includes clamping switch tube S_C1, clamping switch tube S_C2, clamp diode D₁, two pole of clamper Pipe D₂, clamp diode D₃, clamp diode D₄, clamp diode D₅, clamp diode D₆, clamp capacitor C₁, clamp capacitor C₂；The clamping switch tube S_C1Source electrode and clamping switch tube S_C2Drain electrode connection, the clamp diode D₁Anode and pincers Position diode D₂Cathode connection, the clamp diode D₃Anode and clamp diode D₄Cathode connection, the clamper two Pole pipe D₅Anode and clamp diode D₆Cathode connection, clamp capacitor C₁With clamp capacitor C₂Connection；The clamp switch Pipe S_C1Drain electrode, diode D₁Cathode, diode D₃Cathode, diode D₅Cathode and capacitor C₁One end connection；It is described Clamping switch tube S_C2Source electrode, diode D₁Anode, diode D₃Anode, diode D₅Anode and capacitor C₂One end connects It connects；

The clamping switch tube S_C1Source electrode and clamping switch tube S_C2Drain electrode between with secondary coil and two-way switch pipe S₁₁-S₁₂Connection；The clamp diode D₁Anode and clamp diode D₂Cathode between with secondary coil and two-way switch Pipe S₁₄-S₁₃Between connect.

Beneficial effect：TC-SSA circuit of the circuit provided by the invention based on active clamp, circuit structure is simple, can The single-stage power conversion and leakage inductance energy for realizing two channels recycle, and have the advantages that high efficiency low distortion.

The circuit is with using compared with multiple single channel SSA, by being multiplexed TC-SSA circuit, significantly reduce switching tube with Number transformer simplifies circuit structure.Meanwhile active clamp circuit greatly reduces the stress of switch tube voltage, and realizes Leakage inductance and filter inductance energy regenerating utilize, and improve system effectiveness.

Detailed description of the invention

Fig. 1 is that high efficiency binary channels exports Mono-pole switch power amplifier figure.

Fig. 2 is TC-SSA modulation timing waveform diagram.

Fig. 3 is TC-SSA drive waveforms generation circuit.

Fig. 4 is the former secondary side phase shift modulation timing waveform of TC-SSA.

Fig. 5 is the pulse-width modulation waveform and waveform input signal in the channel CH1 and the channel CH2.

Fig. 6 is that output voltage electric current and pulse-width modulation waveform are distinguished in the channel CH1 and the channel CH2.

Fig. 7 is the voltage waveform that the channel CH1 and the channel CH2 export different frequency respectively.

Specific embodiment

High efficiency binary channels of the present invention output Mono-pole switch power amplifier is further illustrated below.

High efficiency binary channels exports Mono-pole switch power amplifier, sees Fig. 1, including half-bridge inversion circuit, frequency converter CH1, frequency converter CH2, active clamp circuit, transformer；

The working principle of the device：

See Fig. 2 and 3, transformer secondary square-wave voltage V_EFIt is shared by two channels CH1, CH2.The channel CH1 frequency converter Two-way switch pipe driving signal S₁₁/S₁₂With S₁₃/S₁₄For complementation conducting.The channel CH2 frequency converter two-way switch pipe driving letter Number S₂₁/S₂₂With S₂₃/S₂₄Complementation conducting.Active clamping switch tube S_C1、S_C4With S_C2、S_C3Respectively with primary side switch pipe S_P1、S_P2 It keeps synchronizing, dead time drives slightly long than primary side switch pipe.v_in1、v_in2The respectively audio signal in the channel CH1, CH2, with Carrier signal, which compares, generates two-way pwm pulse, is modulated respectively to the frequency converter in two channels.

The channel CH1, CH2 output voltage v_o1And v_o2It indicates, v_o1And v_o2For

D in formula₁、d₂It respectively indicates CH1 and CH2 and exports PWM wave duty ratio.Duty ratio d₁With carrier amplitude V_M, audio it is defeated Enter signal v_in1Meet relationship

Convolution (1), (2) can obtain

It can similarly obtain

By formula (3) and formula (4) it is found that the channel CH1, CH2 output voltage v_o1And v_o2Only input signal with each channel v_in1And v_in2Related, audio signal amplification factor is V_dc/(2nV_M), i.e., two channels can be realized independent Linear Amplifer.

Claims

1. a kind of high efficiency binary channels exports Mono-pole switch power amplifier, it is characterised in that：Become including half-bridge inversion circuit, cycle Parallel operation CH1, frequency converter CH2, active clamp circuit, transformer；

The half-bridge inversion circuit includes switching tube S_P1, switching tube S_P2, capacitor C_P1, capacitor C_P2, direct-current input power supplying V_dc；It is described Switching tube S_P1Source electrode and switching tube S_P2Drain electrode connection, and with capacitor C_P1With capacitor C_P2Series circuit it is in parallel, parallel circuit Both ends respectively with direct-current input power supplying V_dcAnode connected with cathode；

The frequency converter CH1 includes switching tube S₁₁, switching tube S₁₂, switching tube S₁₄With switching tube S₁₃, the switching tube S₁₁'s Source electrode and switching tube S₁₂Source electrode connect to form two-way switch pipe S₁₁-S₁₂, the switching tube S₁₄Source electrode and switching tube S₁₃'s Source electrode connects to form two-way switch pipe S₁₄-S₁₃；Switching tube S₁₂Drain electrode and switching tube S₁₃Drain electrode connection, and and filter inductance L₁One end connection；Filter inductance L₁Other end and filter capacitor C₁With load resistance R₁It is formed by parallel circuit connection； Filter capacitor C₁With load R₁Parallel circuit other end is formed by connect with reference；

The frequency converter CH2 includes switching tube S₂₁, switching tube S₂₂, switching tube S₂₄With switching tube S₂₃, the switching tube S₂₁'s Source electrode and switching tube S₂₂Source electrode connect to form two-way switch pipe S₂₁-S₂₂, the switching tube S₂₄Source electrode and switching tube S₂₃'s Source electrode connects to form two-way switch pipe S₂₄-S₂₃；Switching tube S₂₂Drain electrode and switching tube S₂₃Drain electrode connection, and and filter inductance L₂One end connection；Filter inductance L₂Other end and filter capacitor C₂With load resistance R₂It is formed by parallel circuit connection； Filter capacitor C₂With load R₂Parallel circuit other end is formed by connect with reference；

The transformer includes a primary coil and two secondary coils, and two secondary coils are that the number of turns can be changed secondary coil； Primary coil one end of transformer is connected to switching tube S_P1Source electrode and switching tube S_P2Drain electrode between, the other end is connected to electricity Hold C_P1With capacitor C_P2Between；The the first secondary coil Same Name of Ends and two-way switch pipe S of transformer₁₁-S₁₂, two-way switch pipe S₂₁- S₂₂Connection, different name end are connect with reference；Second subprime coil different name end and two-way switch pipe S₁₄-S₁₃, two-way switch pipe S₂₄- S₂₃Connection, Same Name of Ends end are connect with reference；

The active clamp circuit includes clamping switch tube S_C1, clamping switch tube S_C2, clamp diode D₁, clamp diode D₂、 Clamp diode D₃, clamp diode D₄, clamp diode D₅, clamp diode D₆, clamp capacitor C₁, clamp capacitor C₂；It is described Clamping switch tube S_C1Source electrode and clamping switch tube S_C2Drain electrode connection, the clamp diode D₁Anode and clamp diode D₂Cathode connection, the clamp diode D₃Anode and clamp diode D₄Cathode connection, the clamp diode D₅'s Anode and clamp diode D₆Cathode connection, clamp capacitor C₁With clamp capacitor C₂Connection；The clamping switch tube S_C1Leakage Pole, diode D₁Cathode, diode D₃Cathode, diode D₅Cathode and capacitor C₁One end connection；The clamping switch tube S_C2Source electrode, diode D₁Anode, diode D₃Anode, diode D₅Anode and capacitor C₂One end connection；

The clamping switch tube S_C1Source electrode and clamping switch tube S_C2Drain electrode between with the first secondary coil Same Name of Ends and two-way Switching tube S₁₁-S₁₂Connection；The clamp diode D₁Anode and clamp diode D₂Cathode between with second subprime coil Different name end and two-way switch pipe S₁₄-S₁₃Between connect.