CN106655863B - A kind of isolated form inverter based on improvement push-pull circuit - Google Patents

Abstract

The invention discloses a kind of based on the isolated form inverter for improving push-pull circuit, including DC power supply, input filter capacitor, main switch, isolating transformer, rectification circuit, filter circuit, polarity reversion inverter bridge, load and auxiliary circuit.The present invention makes auxiliary circuit assume responsibility for the power ripple that load end generates by the control of switch tube, it is ensured that input power is DC quantity, to achieve the purpose that reduce two double frequency power ripple of direct current input side.

Description

A kind of isolated form inverter based on improvement push-pull circuit

Technical field

The present invention relates to a kind of based on the isolated form inverter for improving push-pull circuit.

Background technique

In recent years, the mankind increasingly pay attention to natural environment, cleaning, efficient, sustainable development new energy power technology It attracts wide attention, some inverter topologies and control program about generation of electricity by new energy has occurred.Such as 1 institute of attached drawing Show, typical single-phase recommends inverter to be a kind of.For this system, the two double frequency power arteries and veins that contain in output AC power It is dynamic will necessarily feedback transmission to direct current input side, influence the service life of the input sources such as battery, fuel cell, meeting when serious The stability of DC power system is interfered, therefore solves the power ripple problem in grid-connected power generation system, improves new energy Utilization efficiency is very urgent.Although this low-frequency ripple can be filtered out with big electrolytic capacitor, in high temperature operating conditions Under, frequent charge and discharge will lead to the decline of its service life to electrolytic capacitor for a long time, it is contemplated that arriving the service life of inverter And power density, it is not recommended to use electrolytic capacitor.LC resonance circuit is accessed in circuit, by designing resonant circuit frequency For twice of output frequency, the purpose for reducing twice of power ripple also may be implemented, but inductance needed for filtering out low-frequency ripple and Capacitor volume is all bigger, reduces the reliability and power density of system.To sum up, these commonly rely on passive device Part reduce power ripple method, often all there is volumes it is big, at high cost the problems such as.And active power filtering is accessed in circuit Device, additional increased circuit are necessarily required to additional control system, so that whole system is all become complex, be unfavorable for one Change.Auxiliary circuit is embedded into original converter, and then is suitably modified original control method and realizes input side power line The reduction of wave is very advantageous.

Summary of the invention

It is an object of the invention to provide one kind for technological deficiency present in above-mentioned inverter to recommend electricity based on improvement The isolated form inverter on road, the inverter not only may be implemented direct current and become exchange, but also can reduce twice of direct current input side Frequency power ripple.

The present invention to achieve the above object, adopts the following technical scheme that

It is of the invention a kind of based on the isolated form inverter for improving push-pull circuit, including DC power supply, input filter capacitor, Main switch, isolating transformer, rectification circuit, filter circuit, polarity invert inverter bridge and load, and wherein main switch includes Two switching tubes, isolating transformer include three windings, the anode of DC power supply, one end of input filter capacitor, the first winding Same Name of Ends and the different name end of the second winding be connected, it is the cathode of DC power supply, the other end of input filter capacitor, first main The emitter of the emitter of switching tube and the second main switch is connected, and the different name of the first winding terminates the first main switch Collector, the collector of second main switch of termination of the same name of the second winding, rectification circuit include four diodes, and first is whole Anode, the cathode of the second rectifier diode of stream diode are connected with the Same Name of Ends of the tertiary winding, third rectifier diode Anode, the cathode of the 4th rectifier diode are connected with the different name end of the tertiary winding, the first rectifier diode and third rectification two The cathode of pole pipe connects and composes the positive output end of rectification circuit, the anode company of the second rectifier diode and the 4th rectifier diode The negative output terminal for constituting rectification circuit is connect, filter circuit includes filter inductance and filter capacitor, and it includes four that polarity, which inverts inverter bridge, A switching tube, the positive output end of a termination rectification circuit of filter inductance, the other end of filter inductance, filter capacitor one end, The collector of first switch tube is connected with the collector of third switching tube, the other end of filter capacitor, rectification circuit bear it is defeated The emitter of outlet, the emitter of second switch and the 4th switching tube is connected, and the emitter of first switch tube, second open The collector for closing pipe is connected with one end of load constitutes positive output end, the current collection of the emitter of third switching tube, the 4th switching tube Pole is connected with the other end of load constitutes negative output terminal, it is characterised in that:

It further include active auxiliary circuit；Wherein active auxiliary circuit include three booster diodes, three auxiliary switches, Auxiliary induction and auxiliary capacitor, one end of auxiliary induction, the anode of DC power supply, the second booster diode cathode and third The anode of booster diode is connected, the other end of auxiliary induction, the anode of the first booster diode and third auxiliary switch Collector be connected, the anode of auxiliary capacitor, the cathode of the first booster diode, the first auxiliary switch collector and The collector of second auxiliary switch is connected, the negative terminal of auxiliary capacitor, the anode of the second booster diode and third auxiliary two The cathode of pole pipe is connected, and the emitter of the first auxiliary switch connects the Same Name of Ends of the second winding, the hair of the second auxiliary switch Emitter-base bandgap grading connects the different name end of the first winding, and the emitter of third auxiliary switch connects the emitter of the second main switch.

Technical characteristics of the present invention compared with original technology are, due to increasing active auxiliary circuit, to pass through control Switching tube makes exchange output loading end bring power ripple flow through auxiliary circuit, and power input only has dc power, thus Achieve the purpose that reduce two double frequency power ripple of input side.

Detailed description of the invention

Attached drawing 1 is that traditional single phase recommends inverter circuit structural schematic diagram.

Attached drawing 2 is a kind of isolated form inverter circuit structural schematic diagram based on improvement push-pull circuit of the invention.

Attached drawing 3 is a kind of isolated form inverter key operation waveforms schematic diagram based on improvement push-pull circuit of the invention.

Attached drawing 4 is a kind of isolated form inverter input-output power relationship signal based on improvement push-pull circuit of the invention Figure.

5~Figure 12 of attached drawing is that a kind of each switch mode based on the isolated form inverter for improving push-pull circuit of the invention is shown It is intended to.

Primary symbols title in above-mentioned attached drawing: V_in, supply voltage.S_m1、S_m2、S_x1~S_x3、S₁~S₄, power switch Pipe.D_x1~D_x3, booster diode.C_in, input filter capacitor.C_x, auxiliary capacitor.L_x, auxiliary induction.T_r, isolating transformer. N₁、N₂、N₃, isolating transformer winding.D₁~D₄, rectifier diode.L_f, filter inductance.C_f, filter capacitor.R_L, load.

Specific embodiment

The technical solution of invention is described in detail with reference to the accompanying drawing:

It is attached it is shown in Fig. 2 be it is a kind of based on improve push-pull circuit isolated form inverter circuit structural schematic diagram.By direct current Power supply, input filter capacitor 1, main switch 2, isolating transformer 3, rectification circuit 4, filter circuit 5, polarity invert inverter bridge 6, load 7 and auxiliary circuit 8 form.S_m1、S_m2、S_x1~S_x3It is five power switch tubes, L_xIt is auxiliary induction, C_xIt is auxiliary electricity Hold, D_x1~D_x3It is booster diode, T_rIt is isolating transformer, D₁~D₄It is rectifier diode, L_fIt is filter inductance, C_fIt is filtering Capacitor, S₁~S₄It is inverse switch pipe, R_LFor load.

Concrete operating principle of the invention is described in conjunction with 3~attached drawing of attached drawing 12.Entire inverter work exists known to attached drawing 3 Under both of which, it is [t respectively that the next switch periods of mode 1, which have 4 kinds of switch mode,₁₀-t₁₁]、[t₁₁-t₁₂]、[t₁₂-t₁₃]、 [t₁₃-t₁₄], it is [t respectively that the next switch periods of mode 2, which have 6 kinds of switch mode,₂₀-t₂₁]、[t₂₁-t₂₂]、[t₂₂-t₂₃]、 [t₂₃-t₂₄]、[t₂₄-t₂₅]、[t₂₅-t₂₆].The working condition of each switch mode is made a concrete analysis of below.

Before analysis, first make the following assumptions: 1. all switching tubes and diode are ideal component；2. ignoring isolation to become The leakage inductance of depressor.

In mode 1, output power is directly provided by DC power supply, and in addition to this extra DC power supply terminal input power is then It is finally stored on auxiliary capacitor by auxiliary circuit, as shown in attached drawing 4, region A and region B are respectively indicated and exported in mode 1 Required power and extra power.In mode 2, DC power supply terminal input power passes to secondary side through push-pull circuit, but this is defeated Enter underpower and provide output required power with complete, wherein insufficient part is then by the auxiliary electricity of energy storage in mode 1 Hold and provide, region C and region D respectively indicate the power that DC input power and auxiliary capacitor discharge in mode 2.Pass through control The power ripple that load-side generates flows to auxiliary circuit, it is ensured that DC power supply terminal input power is DC quantity, so that it may which realization subtracts The purpose of small direct current input side power ripple.

The working condition of switch mode each under mode 1 is made a concrete analysis of below.

1. switching 1 [t of mode₁₀-t₁₁] [corresponding to attached drawing 5]

S_m1Open-minded, a part of A of DC power supply terminal input power is transmitted to transformer secondary, another part power B flow direction Auxiliary circuit is finally stored in auxiliary capacitor C_xOn.Due to S in auxiliary circuit_x3Control be independently of inverter, attached drawing 3 In do not provide S_x3Driving signal.

2. switching 2 [t of mode₁₁-t₁₂] [corresponding to attached drawing 6, attached drawing 7]

t₁₁Moment turns off S_m1, auxiliary circuit works on, until extra power B is transferred completely into auxiliary capacitor C_xOn When S_x3Shutdown.Attached drawing 6 is that auxiliary capacitor passes through auxiliary switch S_x3Inverter mode schematic diagram when charging.Supplemented by attached drawing 7 Inverter mode schematic diagram when circuit being helped not work.Identical both attached drawing 6 and attached drawing 7 are the filtering of isolating transformer pair side Inductive current passes through rectifier diode afterflow, and difference is the working condition of primary side auxiliary circuit.

3. switching 3 [t of mode₁₂-t₁₃] [corresponding to attached drawing 8]

Due in push-pull circuit, the corresponding switching tube of two windings of isolating transformer primary side is in a switch periods It works alternatively, so this stage, S_m2Open-minded, a part of A of DC power supply terminal input power is still transmitted to transformer secondary, Another part power B then flows to auxiliary circuit.

4. switching 4 [t of mode₁₃-t₁₄] [corresponding to attached drawing 6, attached drawing 7]

This mode is as 1 lower switch mode 2 of mode.

The working condition of switch mode each under mode 2 is made a concrete analysis of below.In this mode, S in auxiliary circuit_x3 It is not open-minded.

1. switching 1 [t of mode₂₀-t₂₁] [corresponding to attached drawing 9]

S_m1Open-minded, DC power supply terminal input power C is all transmitted to transformer secondary.

2. switching 2 [t of mode₂₁-t₂₂] [corresponding to attached drawing 10]

t₂₁Moment turns off S_m1, open S_x1, auxiliary capacitor C_xIt is greater than input power to transformer secondary transmitting output power Whole power needed for part D, i.e. DC power supply terminal input power are not enough to provide output, insufficient part is by under mode 1 The auxiliary capacitor to have charged provides.

3. switching 3 [t of mode₂₂-t₂₃] [corresponding to attached drawing 7]

t₂₂Moment turns off S_x1.This mode is as 1 lower switch mode 2 of mode, isolating transformer pair side filter inductance electric current Pass through rectifier diode afterflow.

4. switching 4 [t of mode₂₃-t₂₄] [corresponding to attached drawing 11]

This stage, S_m2Open-minded, as 2 lower switch mode 1 of mode, DC power supply terminal input power C is all transmitted to change Depressor pair side.

5. switching 4 [t of mode₂₄-t₂₅] [corresponding to attached drawing 12]

In push-pull circuit, two main switch S_m1And S_m2Alternate conduction, then corresponding auxiliary switch S_x1And S_x2Also it hands over For conducting.So this stage, S_x2It is open-minded, auxiliary capacitor C_xSupplement input power is not enough to be supplied to the part D of output power.

6. switching 4 [t of mode₂₅-t₂₆] [corresponding to attached drawing 7]

t₂₅Moment turns off S_x2, isolating transformer pair side filter inductance electric current pass through rectifier diode afterflow.

It is from above description it is known that proposed by the present invention a kind of based on the isolated form inversion utensil for improving push-pull circuit There is the advantages of following several respects:

1) due to increasing active auxiliary circuit, lead to two frequency multiplication pulsating power of output power bring from auxiliary circuit It crosses, to achieve the effect that reduce DC supply input side power ripple.

2) it is suitble to low-voltage, high-current to input occasion, even if increasing auxiliary circuit, transformer also still two-way magnetization can be with It is automatically performed reset.

3) voltage stress of polarity reversion converter bridge switching parts pipe is low and is zero-voltage and zero-current switch, improves inverter Efficiency.

Claims (1)

1. a kind of based on the isolated form inverter for improving push-pull circuit, including DC power supply, input filter capacitor (1), main switch (2), isolating transformer (3), rectification circuit (4), filter circuit (5), polarity reversion inverter bridge (6) and load (7) are managed, wherein leading Switching tube (2) includes two switching tubes, and isolating transformer (3) includes three windings, anode, the input filter capacitor of DC power supply (1) the Same Name of Ends of one end, the first winding and the different name end of the second winding is connected, cathode, the input filter electricity of DC power supply The other end, the emitter of the first main switch and the emitter of the second main switch for holding (1) are connected, the different name of the first winding Terminate the collector of the first main switch, the collector of second main switch of termination of the same name of the second winding, rectification circuit (4) packet Four diodes are included, the anode of the first rectifier diode, the cathode of the second rectifier diode are connected with the Same Name of Ends of the tertiary winding It connects, the anode of third rectifier diode, the cathode of the 4th rectifier diode are connected with the different name end of the tertiary winding, the first rectification The cathode of diode and third rectifier diode connects and composes the positive output end of rectification circuit (4), the second rectifier diode and The anode of four rectifier diodes connects and composes the negative output terminal of rectification circuit (4), and filter circuit (5) includes filter inductance and filtering Capacitor, it includes four switching tubes, the positive output end of termination rectification circuit (4) of filter inductance, filter that polarity, which inverts inverter bridge (6), The other end of wave inductance, one end of filter capacitor, first switch tube collector be connected with the collector of third switching tube, filter The other end of wave capacitor, the negative output terminal of rectification circuit (4), the emitter of second switch and the emitter phase of the 4th switching tube Connection, the emitter of first switch tube, the collector of second switch are connected with one end of load (7) constitutes positive output end, the The emitter of three switching tubes, the 4th switching tube collector be connected with the other end of load (7) and constitute negative output terminal, feature exists In:

It further include active auxiliary circuit (8)；Wherein active auxiliary circuit (8) includes three booster diodes, three auxiliary switches Pipe, auxiliary induction and auxiliary capacitor, one end of auxiliary induction, the anode of DC power supply, the cathode of the second booster diode and the The anode of three booster diodes is connected, the other end of auxiliary induction, the anode of the first booster diode and third auxiliary switch The collector of pipe is connected, the anode of auxiliary capacitor, the cathode of the first booster diode, the first auxiliary switch collector and The collector of second auxiliary switch is connected, the negative terminal of auxiliary capacitor, the anode of the second booster diode and third auxiliary two The cathode of pole pipe is connected, and the emitter of the first auxiliary switch connects the Same Name of Ends of the second winding, the hair of the second auxiliary switch Emitter-base bandgap grading connects the different name end of the first winding, and the emitter of third auxiliary switch connects the emitter of the second main switch.