CN108471253A

CN108471253A - A kind of high efficiency full-bridge active clamp Mono-pole switch power amplifier

Info

Publication number: CN108471253A
Application number: CN201810522462.8A
Authority: CN
Inventors: 钟曙
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-05-28
Filing date: 2018-05-28
Publication date: 2018-08-31

Abstract

A kind of high efficiency full-bridge active clamp Mono-pole switch power amplifier provided by the invention, including half-bridge inversion circuit, frequency converter, active clamp circuit, transformer；The half-bridge inversion circuit, frequency converter, active clamp circuit are connected by transformer.The power amplifier is the Mono-pole switch power amplifier using bipolarity phase shift modulation, by using full-bridge active clamp circuit, the circuit is made to have the characteristics that high efficiency, low underloading power consumption, the amplification of low distortion audio.

Description

A kind of high efficiency full-bridge active clamp Mono-pole switch power amplifier

Technical field

The present invention relates to a kind of high efficiency full-bridge active clamp Mono-pole switch power amplifiers, belong to electricity field.

Background technology

Two stage power converts and high switching loss causes traditional D classes power amplification system whole efficiency not high.By High Frequency Link list Grade inverter amplifies applied to audio, can realize single-stage power conversion and reduce switching loss by PWM wave type frequency multiplication, effectively Improve power amplification efficiency.But single-stage inverter filter inductance electric current and leakage inductance electric current quilt in frequency converter change of current dead time It blocks, and then causes serious peak voltage at frequency converter switching tube both ends, lead to very high voltage stress and output electricity Corrugating is distorted.In addition, audio switch power amplifier is usually operated at high frequency state to realize that low distortion amplifies, and when its major part It works under underloading or static conditions so that accounting of the underloading power consumption in whole system power consumption is very big.Therefore, cycle is realized The reliable change of current of converter is realizing high efficiency, low underloading power consumption and low output voltage distortion, is being that single-stage inversion transformation technique is put in audio The critical issue solved is needed in big application.

Invention content

Technical problem：In order to solve the defects of prior art, the present invention provides a kind of high efficiency full-bridge active clamp lists Grade close power amplifier circuit.

Technical solution：A kind of high efficiency full-bridge active clamp Mono-pole switch power amplifier provided by the invention, including half-bridge Inverter circuit, frequency converter, active clamp circuit, transformer；

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

The active clamp circuit includes switching tube S_C1, switching tube S_C2, switching tube S_C3, switching tube S_C4, diode D₁, two Pole pipe D₂, capacitance C_c；The switching tube S_C1Source electrode and switching tube S_C2Drain electrode connection；The switching tube S_C3Source electrode and switch Pipe S_C4Drain electrode connection；The switching tube S_C1Drain electrode, switching tube S_C3Drain electrode, diode D₁Cathode and capacitance C_cOne end connects It connects；The switching tube S_C2Source electrode, switching tube S_C4Source electrode, diode D₂Anode and capacitance C_cThe other end connection；Two level Pipe D₁Anode, diode D₂Cathode connection, and connect with the one end filter inductance L；

The half-bridge inversion circuit, frequency converter, active clamp circuit are connected by transformer；

The frequency converter circuit includes switching tube S₁, switching tube S₂, switching tube S₄, switching tube S₃；The switching tube S₁ Source electrode and switching tube S₂Source electrode connect to form two-way switch pipe S₁-S₂；The switching tube S₃Source electrode and switching tube S₄Source Pole connects to form two-way switch pipe S₃-S₄；

The transformer includes a primary coil, two secondary coils and pair side leakage inductance L_k1With secondary side leakage inductance L_k2, just Grade coil one end is connected to switching tube S_P1Source electrode and switching tube S_P2Drain electrode between, the other end is connected to capacitance C_P1With capacitance C_P2Between, the first secondary coil, the pair side leakage inductance L of transformer_k1, two-way switch pipe S₁-S₂, two-way switch pipe S₃-S₄, secondary side leakage Feel L_k2, second subprime coil be sequentially connected cyclization；Switching tube S₂Drain electrode and switching tube S₄Drain electrode connection, and and filter inductance One end of L connects；The other end of filter inductance L is formed by parallel circuit with filter capacitor C and load resistance R and connect；Filter Wave capacitance C and load R are formed by parallel circuit other end and are connect with reference ground；

Secondary side leakage inductance L_k1With switching tube S₁Drain electrode between with switching tube S_C1Source electrode and switching tube S_C2Drain electrode between connect It connects, secondary side leakage inductance L_k2With switching tube S₃Drain electrode between with switching tube S_C3Source electrode and switching tube S_C4Drain electrode between connect, two Pole pipe D₁Anode and diode D₂Cathode between with switching tube S₂Drain electrode and switching tube S₄Drain electrode between connect.

Advantageous effect：Power amplifier provided by the invention is using bipolarity phase shift modulation (Bipolar Phase Shift Modulation, BPSM) Mono-pole switch power amplifier (Single-stage Switching Amplifier, SSA) circuit, pass through Using full-bridge active clamp (Full bridge active clamp, FBAC) circuit, make the circuit that there is high efficiency, low underloading The characteristics of power consumption, amplification of low distortion audio.

Description of the drawings

Fig. 1 is high efficiency full-bridge active clamp Mono-pole switch power amplifier figure.

Fig. 2 is BPSM-FBAC-SSA modulation timing oscillograms.

Fig. 3 is BPSM-FBAC-SSA drive waveforms generation circuit figures.

Fig. 4 is transformer secondary E points, F points and P point voltage oscillograms.As shown in Figure 4, using active clamp circuit, transformation Any due to voltage spikes is not present in device secondary voltage.

Fig. 5 is the P point voltage waveforms and output voltage waveforms when exporting sine 16.7kHz signals, it can be seen that is being exported When high-frequency signal, output voltage has very high waveform quality.

Specific implementation mode

High efficiency full-bridge active clamp Mono-pole switch power amplifier of the present invention is further illustrated below.

High efficiency full-bridge active clamp Mono-pole switch power amplifier, is shown in Fig. 1, including half-bridge inversion circuit, frequency converter, Active clamp circuit, transformer；

The operation principle of the circuit is：

BPSM FBAC-SSA circuits are as shown in Figure 1, Vdc is input voltage；C_P1~C_P2With S_P1~S_P2Constitute semi-bridge inversion Circuit；Two-way switch pipe S₁/S₂And S₃/S₄Constitute frequency converter, S_C1~S_C4For switching tube；Capacitance C_cBoth end voltage is v_Cc；D₁ And D₂For diode；L and C is respectively filter inductance and filter capacitor；R is load resistance；v_oFor output voltage.The original of transformer Secondary side turn ratio N_p:N_s1:N_s2=n:1:1.Input current i_in, exciting current i_Lm, primary current i_p, leakage inductance electric current i_Lk1、i_Lk2, pincers Position capacitance current i_CcAnd filter inductance electric current i_LReference direction it is as shown in Figure 1.

FBAC-BPSM-SSA circuit modulation timing oscillograms are as shown in Figure 2.V_sawFor sawtooth carrier wave, amplitude is ± V_m；T For carrier cycle；v_inFor audio input signal；V_PFor filter P point voltages, ripple frequency is switching frequency 1/T_S2 times. By carrier signal V_sawTwo divided-frequency obtains primary side switch pipe drive signal S_P1And S_P2, S_P1With S_P2For complementary square wave, active switch pipe Drive signal S_C1/S_C4And S_C2/S_C3With primary side drive signal S_P1And S_P2It keeps synchronizing.Audio input signal v_inWith carrier signal V_sawRising edge relatively obtains two-way switch pipe drive signal S₁/S₂, S₃/S₄With S₁/S₂It is complementary.

S₁/S₂And S₃/S₄Respectively with respect to S_P1And S_P2Phase shift, by audio input signal v_inModulation.Work as v_inIn ± V_MBetween become When change, V_PDuty ratio d change therewith, V_PIt obtains exporting electric v after LPF is filtered_o.Primary voltage of transformer V_ABAmplitude is V_dc/ 2, transformer secondary E points are V with F point voltage magnitudes_dc/2n.Work as v_in=+V_mWhen, S₁/S₂With S_P1It simultaneously turns on, S₃/S₄With S_P2Together When be connected, d=1, v_o=V_dc/2n；Work as v_in=-V_mWhen, S₁/S₂With S_P2It simultaneously turns on, S₃/S₄With S_P1It simultaneously turns on, d=0, v_o =-V_dc/2n；Work as v_inWhen=0, d=0.5, at this time v_o=0.It is approximately considered inductive current not in a switch periods start/stop time Become, then can be obtained according to filter inductance L voltage-second balances

It can be obtained by formula (1)

Duty ratio d and carrier amplitude V_M, audio input signal v_inMeet relationship

Convolution (2) and formula (3) can obtain

By formula (4) it is found that working as voltage V_dcWhen constant, output voltage v_oWith input audio signal v_inIt is linear, it can be with Realize Linear Amplifer, amplification factor V_dc/(2nV_m).It follows that the open loop gain amplifier of BPSM FBAC-SSA is compared to half Bridge D class power amplifiers^[80]It is proportionality coefficient to introduce transformer turns ratio n, i.e. BPSM FBAC-SSA realize direct current by no-load voltage ratio n and supply Piezoelectric voltage is converted.Therefore, by rationally designing transformer turns ratio, (full-bridge circuit, half-bridge circuit are recommended with primary side inverter bridge Circuit), BPSM FBAC-SSA can be applied to low-voltage power supply or high voltage supply occasion.

Fig. 3 gives BPSM FBAC-SSA drive waveforms generation circuits, after audio input signal is compared with carrier signal Obtain PWM wave.The rising edge and failing edge of PWM wave, sent respectively to two d type flip flops realize frequency reducings with generate primary side switch pipe with The drive signal of frequency converter switching tube.Dead zone signals between complementary drive signals are produced by RC circuits and AND gate circuit It is raw.Drive generating principle as shown in Figure 3 it is found that BPSM FBAC-SSA are without detecting zero cross signal, there is no because zero passage detection with And intermodulation distortion problem caused by driving pulse switching.In addition, although BPSM FBAC-SSA have used 10 switching tubes, and Independent drive signal only has 6, it is only necessary to use 6 isolation drives.

Still further aspect, BPSM FBAC can realize that analog feedback is controlled as traditional two-stage close power amplifier.Single-stage is inverse Become device and be applied to audio amplification occasion, system bandwidth requirement is sufficiently wide to realize that wide frequency ranges audio signal is amplified.It compares In digital control, there is analog control mode higher resolution ratio and lower loop to be delayed, can be under the conditions of same band It obtains higher gain around feedback and is distorted with to reduce output voltage and promotes power amplifier performance.

In frequency converter dead time, diode D₁With D₂Respectively in filter inductance electric current i_LIt is with for timing to be negative It provides freewheeling path.And leakage inductance electric current i_Lk1And i_Lk2Then pass through switching tube S respectively_C1~S_C2With S_C3~S_C4In frequency converter Afterflow is realized in dead time.FBAC circuits reality while filter inductance energy and leakage inductance energy are showed and have recycled, has improved system effect Rate.Switching tube S_C1~S_C4With primary side switch pipe S_P1~S_P2Synchronous working realizes bi-directional energy flow, keeps clamp capacitor voltage Stablize.The energy of clamp capacitor recycling can be transmitted to rapidly DC power supply terminal or load end during switching tube is connected.This Outside, FBAC eliminates the due to voltage spikes at frequency converter both ends, reduces two-way switch tube voltage stress, and reduce output voltage Distortion.Frequency converter both ends E points, F points and P point voltages realize clamper, this is also that frequency converter switching tube is real simultaneously Existing ZVS creates condition.Furthermore diode D₁And D₂Can be filter inductance energy during short-circuit protection occurs for load current Flow passage is provided, avoids damaging switching tube because inductance current is mutated.

Claims

1. a kind of high efficiency full-bridge active clamp Mono-pole switch power amplifier, it is characterised in that：Including half-bridge inversion circuit, cycle Converter, active clamp circuit, transformer；

The half-bridge inversion circuit includes switching tube S_P1, switching tube S_P2, capacitance C_P1, capacitance 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 capacitance C_P1With capacitance C_P2Series circuit it is in parallel, parallel circuit Both ends respectively with direct-current input power supplying V_dcAnode connected with cathode；

The active clamp circuit includes switching tube S_C1, switching tube S_C2, switching tube S_C3, switching tube S_C4, diode D₁, diode D₂, capacitance C_c；The switching tube S_C1Source electrode and switching tube S_C2Drain electrode connection；The switching tube S_C3Source electrode and switching tube S_C4Drain electrode connection；The switching tube S_C1Drain electrode, switching tube S_C3Drain electrode, diode D₁Cathode and capacitance C_cOne end connects It connects；The switching tube S_C2Source electrode, switching tube S_C4Source electrode, diode D₂Anode and capacitance C_cThe other end connection；Two level Pipe D₁Anode, diode D₂Cathode connection, and connect with the one end filter inductance L；

The frequency converter circuit includes switching tube S₁, switching tube S₂, switching tube S₃, switching tube S₄；The switching tube S₁Source Pole and switching tube S₂Source electrode connect to form two-way switch pipe S₁-S₂；The switching tube S₃Source electrode and switching tube S₄Source electrode connect It connects to form two-way switch pipe S₃-S₄；

The transformer includes a primary coil, two secondary coils and pair side leakage inductance L_k1With secondary side leakage inductance L_k2, primary line Circle one end is connected to switching tube S_P1Source electrode and switching tube S_P2Drain electrode between, the other end is connected to capacitance C_P1With capacitance C_P2It Between, the first secondary coil, the pair side leakage inductance L of transformer_k1, two-way switch pipe S₁-S₂, two-way switch pipe S₃-S₄, pair side leakage inductance L_k2、 Second subprime coil is sequentially connected cyclization；Switching tube S₂Drain electrode and switching tube S₄Drain electrode connection, and with the one of filter inductance L End connection；The other end of filter inductance L is formed by parallel circuit with filter capacitor C and load resistance R and connect；Filter capacitor C and load R are formed by parallel circuit other end and are connect with reference ground；

Secondary side leakage inductance L_k1With switching tube S₁Drain electrode between with switching tube S_C1Source electrode and switching tube S_C2Drain electrode between connect, it is secondary Side leakage inductance L_k2With switching tube S₃Drain electrode between with switching tube S_C3Source electrode and switching tube S_C4Drain electrode between connect, diode D₁ Anode and diode D₂Cathode between with switching tube S₂Drain electrode and switching tube S₄Drain electrode between connect.