CN103997248A - Switch coupling inductance soft switch single-stage boost inverter with high voltage gain - Google Patents

Abstract

The invention belongs to the technical field of direct current-alternating current inversion equipment, and relates to a switch coupling inductance soft switch single-stage voltage-raising inverter with high voltage gain, wherein a first winding and a second winding are homonymous ends, one end of an inductor is connected with the positive pole of a direct current power supply, the other end of the inductor is connected with the negative pole of a second capacitor, the positive pole of the second capacitor is connected with a three-phase voltage type bridge type inversion circuit, the cathode of a first rectifier diode is connected with the second winding of the coupling inductor, the first rectifier diode is connected with the coupling inductor in series and then connected with the two ends of the second capacitor in parallel, the anode of the second rectifier diode is connected with the anode of the first rectifier diode, the cathode of the second rectifier diode is connected with the common ends of the first winding and the second winding and the positive pole of the first capacitor, and the negative pole of the first capacitor is connected with the negative pole of the direct current power supply and the; the device has the advantages of simple structure, small electromagnetic interference influence, less loss, low cost, high energy conversion efficiency and friendly environment.

Description

There is the soft switch single-stage inverter capable of boosting voltage of switch coupling inductance of high voltage gain

Technical field:

The invention belongs to DC-AC contravariant equipment technical field, relate to a kind of DC-AC inverter, particularly a kind of soft switch single-stage inverter capable of boosting voltage of switch coupling inductance with high voltage gain.

Background technology:

Existing improvement transformer type Z-source inventer, comprise an inductance, two electric capacity, rectifier diode, coupling inductance and three-phase voltage type bridge inverter main circuit, this improvement transformer type Z-source inventer has improved continuous input current and the step-up ratio of traditional Z-source inventer/accurate Z-source inventer.But, due to the existence of stray inductance in the ring of coupling inductance leakage inductance and circuit, cause the voltage stress of switching device higher, and produce more electromagnetic interference (EMI).Due to voltage spikes and ring that leakage inductance and stray inductance can cause DC-link voltage, can damage active device, and reduce the efficiency of whole system.Meanwhile, the hard switching environment that converter bridge switching parts pipe " leads directly to " state is larger on system effectiveness impact.Therefore, seek to design a kind of simple in structure, consume energy the soft switch single-stage inverter capable of boosting voltage of the switch coupling inductance with high voltage gain low, electromagnetic interference is little, efficiency is high.

Summary of the invention:

The object of the invention is to overcome the shortcoming that prior art exists, seek design a kind of soft switch single-stage inverter capable of boosting voltage of switch coupling inductance with high voltage gain is provided, its power switch pipe quantity is few, be operated under soft switch environment, loss is low, electromagnetic interference influence is little, realizes efficient energy conversion.

To achieve these goals, agent structure of the present invention comprises DC power supply, inductance, the first electric capacity, the second electric capacity, the first rectifier diode, the second rectifier diode, the coupling inductance being made up of the first winding and the second winding and by six insulated gate bipolar transistors (IGBT) and six three-phase voltage type bridge inverter main circuits that anti-paralleled diode constitutes, the first winding of coupling inductance and the second winding Same Name of Ends each other, one end of inductance is connected with the positive pole of DC power supply, the other end of inductance is connected with the negative pole of the second electric capacity, the positive pole of the second electric capacity is connected with three-phase voltage type bridge inverter main circuit, the negative electrode of the first rectifier diode is connected with the second winding of coupling inductance, the first rectifier diode is connected in parallel on the two ends of the second electric capacity after connecting with the coupling inductance being made up of the first winding and the second winding, the anode of the second rectifier diode is connected with the anode of the first rectifier diode, the negative electrode of the second rectifier diode is connected with the first winding and common port of the second winding and the positive pole of the first electric capacity, the negative pole of the first electric capacity is connected with the negative pole of DC power supply and three-phase voltage type bridge inverter main circuit, three-phase voltage type bridge inverter main circuit comprises six brachium pontis, each brachium pontis is connected and is formed by an insulated gate bipolar transistor (IGBT) and an anti-paralleled diode, the output of three-phase voltage type bridge inverter main circuit is picked out respectively by three groups of brachium pontis of mutual correspondence, three-phase voltage type bridge inverter main circuit is the output of whole device, receive direct current energy, output AC electric energy.

There are three kinds of courses of work in the soft switched inductors monopole inverter capable of boosting voltage of the switch coupling inductance with high voltage gain that the present invention relates to, the straight-through course of work of three-phase voltage type bridge inverter main circuit, the course of work that three-phase voltage type bridge inverter main circuit turn-offs and inverter are operated in the course of work of traditional nought state and traditional effective status, the straight-through course of work of three-phase voltage type bridge inverter main circuit is: before three-phase voltage type bridge inverter main circuit is straight-through, circuit working is at typical non-direct mode operation, now the first rectifier diode conducting, the energy of the first rectifier diode is sent to load by coupling inductance, in the time of the conducting of three-phase voltage type bridge inverter main circuit, leakage inductance electric current by the second winding passes to three-phase voltage type bridge inverter main circuit from anti-paralleled diode gradually, the magnetizing inductance charging of inductance and coupling inductance, in the time that the leakage inductance electric current of coupling inductance the second winding drops to zero, the first rectifier diode turn-offs naturally, the leakage inductance of coupling inductance the second winding reduces the reverse-recovery problems of the first rectifier diode, and realize the zero-current soft switch of three-phase voltage type bridge inverter main circuit, the course of work that three-phase voltage type bridge inverter main circuit turn-offs is: when three-phase voltage type bridge inverter main circuit turn-offs, adopt the shutoff of insulated gate bipolar transistor (IGBT) in PWM (pulse width modulation) signal controlling three-phase voltage type bridge inverter main circuit, because three-phase voltage type bridge inverter main circuit exists parasitic capacitance in parallel, capacitance voltage can not suddenly change, the leakage inductance of inductance and coupling inductance the first winding is to the parasitic capacitance charging in parallel of three-phase voltage type bridge inverter main circuit, until the magnitude of voltage at parasitic capacitance in parallel two ends reaches V _c1+ V _c2, three-phase voltage type bridge inverter main circuit is realized Zero-voltage soft and is turn-offed, and now the voltage clamp at three-phase voltage type bridge inverter main circuit parasitic capacitance in parallel two ends is to V _c1+ V _c2thereby, the conducting simultaneously of the first rectifier diode and the second rectifier diode, the second rectifier diode therefore increasing can stop the voltage at three-phase voltage type bridge inverter main circuit two ends to exceed V _c1+ V _c2the leakage inductance electric current of coupling inductance the first winding reduces, and the energy being stored in leakage inductance discharges to load under disresonance pattern, drops at 1 o'clock by the electric current of the second rectifier diode, the second rectifier diode turn-offs under zero-current soft switch environment, reduces the reverse restorability of diode, inverter is operated in the course of work of traditional nought state and traditional effective status: the steady operation running status that circuit working turn-offs at anti-paralleled diode conducting, anti-paralleled diode, start inverter and be operated in traditional nought state, inverter is operated in traditional effective status afterwards, now inverter bridge can be regarded a current source as, together with the leakage inductance of input voltage, inductance and coupling inductance the first winding, give output stage, the first electric capacity and the second capacitor charging, last inverter is operated in traditional nought state again, wherein V _c1be the voltage at the first electric capacity two ends, V _c2be the voltage at the second electric capacity two ends.

When the present invention works, utilize the first winding of coupling inductance and the second winding to realize the high-gain of circuit; Due to the existence of coupling inductance the first winding leakage inductance, realize the zero current passing of three-phase voltage type bridge inverter main circuit; Due to the existence of three-phase voltage type bridge inverter main circuit parasitic capacitance in parallel, realize the no-voltage of three-phase voltage type bridge inverter main circuit and turn-off; The existence of coupling inductance the second winding leakage inductance, reduces the reverse-recovery problems of the first rectifier diode, realizes the zero-current switching of the second rectifier diode; In whole switch periods, adopt the shutoff of insulated gate bipolar transistor (IGBT) in pwm signal control three-phase voltage type bridge inverter main circuit, three-phase voltage type bridge inverter main circuit is realized no-voltage and is turn-offed under the effect of parasitic capacitance in parallel, under the effect of coupling inductance leakage inductance, realize the zero current passing of three-phase voltage type bridge inverter main circuit, the second rectifier diode increasing is transformed into load by the energy in leakage inductance under disresonance pattern, realizes the Lossless Snubber of energy.

Compared with prior art, this inverter can recently reach by changing the turn ratio of coupling inductance and the straight-through duty of inverter any adjusting of voltage gain in the present invention, has improved the continuity of input current of inverter, the rectifier diode D of increase ₂contribute to the energy in leakage inductance to be transformed into load under disresonance pattern, improved the efficiency of system, the active device of inverter and rectifier diode are operated under soft switch environment, and the reverse-recovery problems of diode improves; It is simple in structure, and electromagnetic interference influence is little, and loss is few, and cost is low, and energy conversion efficiency is high, environmental work close friend.

Brief description of the drawings:

Fig. 1 is agent structure circuit theory schematic diagram of the present invention.

Embodiment:

Below by embodiment, also the invention will be further described by reference to the accompanying drawings.

Embodiment:

The agent structure of the present embodiment comprises DC power supply V _in, inductance L ₁, the first capacitor C ₁, the second capacitor C ₂, the first rectifier diode D ₇, the second rectifier diode D ₈, by the first winding L _awith the second winding L _bcomposition coupling inductance and by insulated gate bipolar transistor (IGBT) S ₁～S ₆with anti-paralleled diode D ₁～D ₆the three-phase voltage type bridge inverter main circuit constituting; The first winding L of coupling inductance _awith the second winding L _bsame Name of Ends each other, inductance L ₁one end and DC power supply V _inpositive pole be connected, inductance L ₁the other end and the second capacitor C ₂negative pole be connected, the second capacitor C ₂positive pole be connected with three-phase voltage type bridge inverter main circuit, the first rectifier diode D ₁negative electrode and the second winding L of coupling inductance _bbe connected, the first rectifier diode D ₇with by the first winding L _aand second winding L _bafter the coupling inductance series connection of composition, be connected in parallel on the second capacitor C ₂two ends, the second rectifier diode D ₈anode and the first rectifier diode D ₇anode be connected, the second rectifier diode D ₈negative electrode and the first winding L _awith the second winding L _bcommon port and the first capacitor C ₁positive pole be connected, the first capacitor C ₁negative pole and DC power supply V _innegative pole and three-phase voltage type bridge inverter main circuit be connected; Three-phase voltage type bridge inverter main circuit comprises six brachium pontis, each brachium pontis is connected and is formed by an insulated gate bipolar transistor (IGBT) and an anti-paralleled diode, the output of three-phase voltage type bridge inverter main circuit is picked out respectively by three groups of brachium pontis of mutual correspondence, three-phase voltage type bridge inverter main circuit is the output of whole device, receive direct current energy, output AC electric energy.

There are three kinds of courses of work in the soft switched inductors monopole inverter capable of boosting voltage of switch coupling inductance of what the present embodiment related to have high voltage gain, the straight-through course of work of three-phase voltage type bridge inverter main circuit, the course of work that three-phase voltage type bridge inverter main circuit turn-offs and inverter are operated in the course of work of traditional nought state and traditional effective status; The straight-through course of work of three-phase voltage type bridge inverter main circuit is: before three-phase voltage type bridge inverter main circuit is straight-through, circuit working is at typical non-direct mode operation, now the first rectifier diode D ₇conducting, coupling inductance is by the first rectifier diode D ₇energy be sent to load, in the time of the conducting of three-phase voltage type bridge inverter main circuit, by the second winding L _bleakage inductance electric current gradually from anti-paralleled diode D ₁pass to three-phase voltage type bridge inverter main circuit, inductance L ₁with the magnetizing inductance charging of coupling inductance, when coupling inductance the second winding L _bleakage inductance electric current drop at 1 o'clock, the first rectifier diode D ₇naturally turn-off coupling inductance the second winding L _bleakage inductance reduce by the first rectifier diode D ₇reverse-recovery problems, and realize the zero-current soft switch of three-phase voltage type bridge inverter main circuit; The course of work that three-phase voltage type bridge inverter main circuit turn-offs is: when three-phase voltage type bridge inverter main circuit turn-offs, adopt the shutoff of insulated gate bipolar transistor (IGBT) in PWM (pulse width modulation) signal controlling three-phase voltage type bridge inverter main circuit, because three-phase voltage type bridge inverter main circuit exists parasitic capacitance in parallel, capacitance voltage can not suddenly change, inductance L ₁with coupling inductance the first winding L _aleakage inductance to the parasitic capacitance in parallel charging of three-phase voltage type bridge inverter main circuit, until the magnitude of voltage at parasitic capacitance in parallel two ends reaches V _c1+ V _c2, three-phase voltage type bridge inverter main circuit is realized Zero-voltage soft and is turn-offed, and now the voltage clamp at three-phase voltage type bridge inverter main circuit parasitic capacitance in parallel two ends is to V _c1+ V _c2thereby, the first rectifier diode D ₇with the second rectifier diode D ₈conducting simultaneously, the second rectifier diode D therefore increasing ₈can stop the voltage at three-phase voltage type bridge inverter main circuit two ends to exceed V _c1+ V _c2, coupling inductance the first winding L _aleakage inductance electric current reduce, the energy being stored in leakage inductance discharges to load under disresonance pattern, by the second rectifier diode D ₈electric current drop at 1 o'clock, the second rectifier diode D ₈under zero-current soft switch environment, turn-off, reduce the reverse restorability of diode; Inverter is operated in the course of work of traditional nought state and traditional effective status: circuit working is at anti-paralleled diode D ₁conducting, anti-paralleled diode D ₂the steady operation running status of turn-offing, starts inverter and is operated in traditional nought state, and inverter is operated in traditional effective status afterwards, and now inverter bridge can be regarded a current source, input voltage, inductance L as ₁with coupling inductance the first winding L _aleakage inductance give together output stage, the first capacitor C ₁with the second capacitor C ₂charging, last inverter is operated in traditional nought state again; Wherein V _c1it is the first capacitor C ₁the voltage at two ends, V _c2it is the second capacitor C ₂the voltage at two ends.

When the present embodiment work, utilize the first winding L of coupling inductance _awith the second winding L _brealize the high-gain of circuit; Due to coupling inductance the first winding L _athe existence of leakage inductance, realizes the zero current passing of three-phase voltage type bridge inverter main circuit; Due to the existence of three-phase voltage type bridge inverter main circuit parasitic capacitance in parallel, realize the no-voltage of three-phase voltage type bridge inverter main circuit and turn-off; Coupling inductance the second winding L _bthe existence of leakage inductance, reduces by the first rectifier diode D ₇reverse-recovery problems, realize the second rectifier diode D ₈zero-current switching; In whole switch periods, adopt the shutoff of insulated gate bipolar transistor (IGBT) in pwm signal control three-phase voltage type bridge inverter main circuit, three-phase voltage type bridge inverter main circuit is realized no-voltage and is turn-offed under the effect of parasitic capacitance in parallel, under the effect of coupling inductance leakage inductance, realize the zero current passing of three-phase voltage type bridge inverter main circuit, the second rectifier diode D of increase ₈energy in leakage inductance is transformed into load under disresonance pattern, realizes the Lossless Snubber of energy.

Claims (2)

1. there is the soft switch single-stage inverter capable of boosting voltage of switch coupling inductance of high voltage gain, it is characterized in that agent structure comprises DC power supply, inductance, the first electric capacity, the second electric capacity, the first rectifier diode, the second rectifier diode, the coupling inductance being made up of the first winding and the second winding and by six insulated gate bipolar transistors and six three-phase voltage type bridge inverter main circuits that anti-paralleled diode constitutes, the first winding of coupling inductance and the second winding Same Name of Ends each other, one end of inductance is connected with the positive pole of DC power supply, the other end of inductance is connected with the negative pole of the second electric capacity, the positive pole of the second electric capacity is connected with three-phase voltage type bridge inverter main circuit, the negative electrode of the first rectifier diode is connected with the second winding of coupling inductance, the first rectifier diode is connected in parallel on the two ends of the second electric capacity after connecting with the coupling inductance being made up of the first winding and the second winding, the anode of the second rectifier diode is connected with the anode of the first rectifier diode, the negative electrode of the second rectifier diode is connected with the first winding and common port of the second winding and the positive pole of the first electric capacity, the negative pole of the first electric capacity is connected with the negative pole of DC power supply and three-phase voltage type bridge inverter main circuit, three-phase voltage type bridge inverter main circuit comprises six brachium pontis, each brachium pontis is connected and is formed by an insulated gate bipolar transistor and an anti-paralleled diode, the output of three-phase voltage type bridge inverter main circuit is picked out respectively by three groups of brachium pontis of mutual correspondence, three-phase voltage type bridge inverter main circuit is the output of whole device, receive direct current energy, output AC electric energy.

2. the soft switch single-stage inverter capable of boosting voltage of switch coupling inductance with high voltage gain according to claim 1, it is characterized in that existing three kinds of courses of work, the course of work that the straight-through course of work of three-phase voltage type bridge inverter main circuit, three-phase voltage type bridge inverter main circuit turn-off and inverter are operated in the course of work of traditional nought state and traditional effective status, the straight-through course of work of three-phase voltage type bridge inverter main circuit is: before three-phase voltage type bridge inverter main circuit is straight-through, circuit working is at typical non-direct mode operation, now the first rectifier diode conducting, the energy of the first rectifier diode is sent to load by coupling inductance, in the time of the conducting of three-phase voltage type bridge inverter main circuit, leakage inductance electric current by the second winding passes to three-phase voltage type bridge inverter main circuit from anti-paralleled diode gradually, the magnetizing inductance charging of inductance and coupling inductance, in the time that the leakage inductance electric current of coupling inductance the second winding drops to zero, the first rectifier diode turn-offs naturally, the leakage inductance of coupling inductance the second winding reduces the reverse-recovery problems of the first rectifier diode, and realize the zero-current soft switch of three-phase voltage type bridge inverter main circuit, the course of work that three-phase voltage type bridge inverter main circuit turn-offs is: when three-phase voltage type bridge inverter main circuit turn-offs, adopt the shutoff of insulated gate bipolar transistor in pulse width modulating signal control three-phase voltage type bridge inverter main circuit, because three-phase voltage type bridge inverter main circuit exists parasitic capacitance in parallel, capacitance voltage can not suddenly change, the leakage inductance of inductance and coupling inductance the first winding is to the parasitic capacitance charging in parallel of three-phase voltage type bridge inverter main circuit, until the magnitude of voltage at parasitic capacitance in parallel two ends reaches V _c1+ V _c2, three-phase voltage type bridge inverter main circuit is realized Zero-voltage soft and is turn-offed, and now the voltage clamp at three-phase voltage type bridge inverter main circuit parasitic capacitance in parallel two ends is to V _c1+ V _c2thereby, the conducting simultaneously of the first rectifier diode and the second rectifier diode, the second rectifier diode therefore increasing can stop the voltage at three-phase voltage type bridge inverter main circuit two ends to exceed V _c1+ V _c2the leakage inductance electric current of coupling inductance the first winding reduces, and the energy being stored in leakage inductance discharges to load under disresonance pattern, drops at 1 o'clock by the electric current of the second rectifier diode, the second rectifier diode turn-offs under zero-current soft switch environment, reduces the reverse restorability of diode, inverter is operated in the course of work of traditional nought state and traditional effective status: the steady operation running status that circuit working turn-offs at anti-paralleled diode conducting, anti-paralleled diode, start inverter and be operated in traditional nought state, inverter is operated in traditional effective status afterwards, now inverter bridge can be regarded a current source as, together with the leakage inductance of input voltage, inductance and coupling inductance the first winding, give output stage, the first electric capacity and the second capacitor charging, last inverter is operated in traditional nought state again, wherein V _c1be the voltage at the first electric capacity two ends, V _c2be the voltage at the second electric capacity two ends.