CN103825455B - The double Buck full-bridge inverter of single inductance - Google Patents

Abstract

A kind of double Buck full-bridge inverter of single inductance, including circuit for reversing, double Buck circuit, realizes inversion by circuit for reversing.The double Buck full-bridge inverter of list inductance of the present invention solves the bridge arm direct pass problem on traditional circuit, and compared with conventional half-bridge type inverter, the voltage stress of power device reduces, and is more suitable for high pressure, powerful occasion；Compared with dual buck inverter (DBI) circuit, it is only necessary to a filter inductance, reduce the volume and weight of whole circuit and be lost accordingly, there is higher conversion efficiency；Control program is simple, it is easy to accomplish, there is higher reliability.

Description

The double Buck full-bridge inverter of single inductance

Technical field:

The present invention relates to a kind of double Buck full-bridge inverter of single inductance, belong to the inverter in electrical energy changer.

Background technology:

Along with the development of Power Electronic Technique, inverter has obtained studying widely and applying, dual buck inverter (Dual Buck Inverter hereinafter referred to as DBI) it is to be suggested in recent years and the novel inverter topology of numerous studies.With tradition Recommend, the inverter such as full-bridge is compared, DBI has without bridge arm direct pass with without switching tube parasitic diode reverse-recovery problems Outstanding feature, power supply reliability is required that high occasion is especially suitable.DBI is the high efficiency simultaneously realizing inverter Provide a kind of succinct approach with high reliability, there is the highest researching value and wide its development.DBI with Conventional half-bridge inverter is the same, has the disadvantage in that DBI needs external positive and negative DC bus-bar voltage, and its amplitude exceedes defeated Going out the twice of voltage max, DC voltage utilization rate is low, and device voltage stress is the twice of input voltage, is not suitable for height Pressure input occasion；Brachium pontis can only export+1 and-1 binary states level, works in bipolar modulation mode, brachium pontis output waveform Harmonic content is big, needs higher switching frequency and bigger wave filter.Additionally, DBI comprises two filter inductances, And volume weight and the loss of magnetics occupies sizable ratio in Switching Power Supply, and along with its ratio of increase of power Example also can become big.

Summary of the invention:

Single inductance that the present invention provides one can retain dual buck inverter (DBI) high reliability and high efficiency advantage is double Buck full-bridge inverter.

The present invention adopts the following technical scheme that a kind of double Buck full-bridge inverter of single inductance, including external power supply U, instead Shifting circuit and double Buck circuit, described circuit for reversing includes the first power triple-pole switch pipe S₁, the second power triple-pole switch Pipe S₂, the 3rd power triple-pole switch pipe S₃And the 4th power triple-pole switch pipe S₄, described pair of Buck circuit includes the 5th merit Rate triple-pole switch pipe S₅, the 6th power triple-pole switch pipe S₆, the first sustained diode₁Negative electrode, the second afterflow two pole Pipe D₂, output inductor L, output filter capacitor C and load R, described first power triple-pole switch pipe S₁Leakage Pole is connected with the positive pole of external power supply U；First power triple-pole switch pipe S₁Source electrode and the 3rd power triple-pole switch pipe S₃ Drain electrode, be connected to the 5th power triple-pole switch pipe S₅Drain electrode；3rd power triple-pole switch pipe S₃Source electrode with external The negative pole of power supply U connects；Second power triple-pole switch pipe S₂Drain electrode be connected with the positive pole of external power supply U；4th merit Rate triple-pole switch pipe S₄Source electrode be connected with the negative pole of external power supply U；Second power triple-pole switch pipe S₂Source electrode and Four power triple-pole switch pipe S₄Drain electrode, be connected to output filter capacitor C and one end of being connected of load R；Output filtering Electric capacity C is also connected with the other end of load R, is connected to one end of output inductor L；First sustained diode₁ Negative electrode and the second sustained diode₂Anode, be connected to the other end of output inductor L；First afterflow two pole Pipe D₁Anode be connected with the negative pole of external power supply U；Second sustained diode₂Negative electrode and external power supply U just Pole connects；6th power triple-pole switch pipe S₆Drain electrode be connected to the first sustained diode₁Negative electrode and the second afterflow two Pole pipe D₂The junction point of anode；6th power triple-pole switch pipe S₆Source electrode and the 5th power triple-pole switch pipe S₅Source Pole connects.

There is advantages that

(1) the bridge arm direct pass problem on traditional circuit is solved；

(2) compared with conventional half-bridge type inverter, the voltage stress of power device reduces, and is more suitable for high pressure, big merit The occasion of rate；

(3) compared with DBI circuit, it is only necessary to a filter inductance, whole circuit volume and weight and phase are reduced The loss answered, has higher conversion efficiency；

(4) control program is simple, it is easy to accomplish, there is higher reliability.

Accompanying drawing illustrates:

Fig. 1 is the double Buck full-bridge inverter circuit structural representation of single inductance of the present invention.

Fig. 2 is that the double Buck full-bridge inverter circuit of single inductance of the present invention respectively switchs mode schematic diagram.

Fig. 3 is the control block diagram of single inductance double Buck full-bridge inverter circuit employing of the present invention.

Wherein:

1 circuit for reversing；2 pairs of Buck circuit；S₁～S₆First～the 6th power triple-pole switch pipe；D₁、D₂ First, second fly-wheel diode；L output inductor；C output filter capacitor；The external electricity of U Source；u_oInverter output voltage；u_ofOutput voltage feeds back；u_rVoltage loop benchmark；i_oInverter is defeated Go out electric current；i_ofOutput current feedback；i_rVoltage loop output i.e. electric current loop benchmark；Drv1～drv6 power three Pole switching tube S₁～S₆Driving.

Detailed description of the invention:

As it is shown in figure 1, the first power triple-pole switch pipe S in the double Buck full-bridge inverter of list inductance of the present invention₁Drain electrode with The positive pole of external power supply U connects；First power triple-pole switch pipe S₁Source electrode and the 3rd power triple-pole switch pipe S₃Leakage Pole, is connected to the 5th power triple-pole switch pipe S₅Drain electrode；3rd power triple-pole switch pipe S₃Source electrode and external power supply The negative pole of U connects；Second power triple-pole switch pipe S₂Drain electrode be connected with the positive pole of external power supply U；4th power three Pole switching tube S₄Source electrode be connected with the negative pole of external power supply U；Second power triple-pole switch pipe S₂Source electrode and the 4th merit Rate triple-pole switch pipe S₄Drain electrode, be connected to output filter capacitor C and one end of being connected of load R；Output filter capacitor C is also connected with the other end of load R, is connected to one end of output inductor L；First sustained diode₁The moon Pole and the second sustained diode₂Anode, be connected to the other end of output inductor L；First sustained diode₁ Anode be connected with the negative pole of external power supply U；Second sustained diode₂Negative electrode be connected with the positive pole of external power supply U； 6th power triple-pole switch pipe S₆Drain electrode be connected to the first sustained diode₁Negative electrode and the second sustained diode₂ The junction point of anode；6th power triple-pole switch pipe S₆Source electrode and the 5th power triple-pole switch pipe S₅Source electrode connect.

The operation principle of the present invention is: be more than the positive half cycle of zero, the first power triple-pole switch pipe S at output voltage₁With the 4th Power triple-pole switch pipe S₄Normally opened, the second power triple-pole switch pipe S₂With the 3rd power triple-pole switch pipe S₃Normally closed, defeated Positive half cycle when going out electric current more than zero, by the 5th power triple-pole switch pipe S₅, the 6th power triple-pole switch pipe S₆Body two Pole pipe, the first sustained diode₁, output inductor L, output filter capacitor C composition buck circuit 1 work. Positive half cycle when exporting electric current less than zero, by the 6th power triple-pole switch pipe S₆, the 5th power triple-pole switch pipe S₅'s Body diode, the second sustained diode₂, output inductor L, output filter capacitor C composition buck circuit 2 Work；At the minus negative half period of output voltage, the second power triple-pole switch pipe S₂With the 3rd power three pole S₃It is normally opened, First power triple-pole switch pipe S₁With the 4th power triple-pole switch pipe S₄Normally closed, when exporting electric current more than zero negative half period, Buck circuit 1 works, and the negative half period when exporting electric current more than zero, buck circuit 2 works.Wherein, first, Second, third, the 4th power triple-pole switch plumber's frequency modulation system, play circuit reversion effect, thus reach inversion purpose；Double Five, the 6th power triple-pole switch pipe High ireguency SPWM modulation of Buck circuit part, to guarantee output voltage waveforms. Due to only one of which filter inductance in the present invention, compared with DBI, it is not required to consider circulation problem, it is ensured that at buck electricity It is not required to any bias current, it is ensured that inverter is at greater efficiency and operation at frequencies during the work of road.

Below with accompanying drawing 1 as main circuit structure, describe specific works principle and the operation mode of the present invention in conjunction with accompanying drawing 2.

1. output voltage is more than zero, and output electric current is more than zero, and now circuit includes two operation modes:

Operation mode I: as shown in Fig. 2 (a), the first power triple-pole switch pipe S₁, the 4th power triple-pole switch pipe S₄It is normally opened, Second power triple-pole switch pipe S₂, the 3rd power triple-pole switch pipe S₃Normally closed, the 5th power triple-pole switch pipe S₅Conducting, 6th power triple-pole switch pipe S₆Turning off, buck circuit 1 works, and inductive current starts linear rise, supplies to load R Electricity.

Operation mode II: as shown in Fig. 2 (b), the first power triple-pole switch pipe S₁, the 4th power triple-pole switch pipe S₄It is normally opened, Second power triple-pole switch pipe S₂, the 3rd power triple-pole switch pipe S₃Normally closed, the 5th power triple-pole switch pipe S₅Turn off, 6th power triple-pole switch pipe S₆Turning off, inductive current is from the first sustained diode₁Afterflow, linear decline.

2. output voltage is less than zero, and output electric current is less than zero, and now circuit includes two operation modes:

Operation mode III: as shown in Fig. 2 (c), the second power triple-pole switch pipe S₂, the 3rd power triple-pole switch pipe S₃It is normally opened, First power triple-pole switch pipe S₁, the 4th power triple-pole switch pipe S₄Normally closed, the 6th power triple-pole switch pipe S₆Conducting, 5th power triple-pole switch pipe S₅Turning off, buck circuit 2 works, and inductive current starts linear rise, supplies to load R Electricity.

Operation mode IV: as shown in Fig. 2 (d), the second power triple-pole switch pipe S₂, the 3rd power triple-pole switch pipe S₃It is normally opened, First power triple-pole switch pipe S₁, the 4th power triple-pole switch pipe S₄Normally closed, the 6th power triple-pole switch pipe S₆Turn off, 5th power triple-pole switch pipe S₅Turning off, inductive current is from the second sustained diode₂Afterflow, linear decline.

For realizing above operation principle, the control program of employing as shown in Figure 3: output voltage feedback u_ofWith Voltage loop Benchmark u_rElectric current loop benchmark i is obtained through the regulation of Voltage loop PI_r.Output current feedback i_ofWith electric current loop benchmark i_rThrough electric current loop PI regulates, then is modulated by SPWM and drive circuit obtains the five, the 6th power triple-pole switch pipe S₅、S₆Drive Dynamic signal drv5, drv6.Voltage loop benchmark u_rThrough zero-crossing comparator computing again through overdrive and dead-zone circuit obtains first, Second, third, the 4th power triple-pole switch pipe S₁、S₂、S₃、S₄Driving signal drv1, drv2, drv3, drv4, Because these four whole power frequency periods of switching tube the most only switch once, dead band impact is negligible.

The above is only the preferred embodiment of the present invention, it is noted that for those skilled in the art For, some improvement can also be made under the premise without departing from the principles of the invention, these improvement also should be regarded as the present invention's Protection domain.

Claims (1)

1. the double Buck full-bridge inverter of single inductance, including external power supply (U), circuit for reversing (1) and double Buck Circuit (2), it is characterised in that: described circuit for reversing (1) includes the first power triple-pole switch pipe (S₁), the second power Triple-pole switch pipe (S₂), the 3rd power triple-pole switch pipe (S₃) and the 4th power triple-pole switch pipe (S₄), described couple of Buck Circuit (2) includes the 5th power triple-pole switch pipe (S₅), the 6th power triple-pole switch pipe (S₆), the first fly-wheel diode (D₁), the second fly-wheel diode (D₂), output inductor (L), output filter capacitor (C) and load (R), Described first power triple-pole switch pipe (S₁) drain electrode be connected with the positive pole of external power supply (U)；First power three pole is opened Close pipe (S₁) source electrode and the 3rd power triple-pole switch pipe (S₃) drain electrode, be connected to the 5th power triple-pole switch pipe (S₅) Drain electrode；3rd power triple-pole switch pipe (S₃) source electrode be connected with the negative pole of external power supply (U)；Second power three Pole switching tube (S₂) drain electrode be connected with the positive pole of external power supply (U)；4th power triple-pole switch pipe (S₄) source Pole is connected with the negative pole of external power supply (U)；Second power triple-pole switch pipe (S₂) source electrode and the 4th power three pole open Close pipe (S₄) drain electrode, be connected to output filter capacitor (C) and load (R) one end of being connected；Output filter capacitor (C) other end with load (R) is also connected, and is connected to one end of output inductor (L)；First afterflow two pole Pipe (D₁) negative electrode and the second fly-wheel diode (D₂) anode, be connected to the other end of output inductor (L)； First fly-wheel diode (D₁) anode be connected with the negative pole of external power supply (U)；Second fly-wheel diode (D₂) Negative electrode is connected with the positive pole of external power supply (U)；6th power triple-pole switch pipe (S₆) drain electrode be connected to the first afterflow Diode (D₁) negative electrode and the second fly-wheel diode (D₂) the junction point of anode；6th power triple-pole switch pipe (S₆) Source electrode and the 5th power triple-pole switch pipe (S₅) source electrode connect.