CN202004680U

CN202004680U - Sine wave inverter parallel system with variable current ratio

Info

Publication number: CN202004680U
Application number: CN2011201104565U
Authority: CN
Inventors: 陈良亮; 尹宏旭; 洪福斌; 张蓓蓓; 吴鸣; 董浩; 鲍恩奇
Original assignee: Nari Technology Co Ltd; State Grid Electric Power Research Institute
Current assignee: Nari Technology Co Ltd; State Grid Electric Power Research Institute
Priority date: 2011-04-15
Filing date: 2011-04-15
Publication date: 2011-10-05
Anticipated expiration: 2021-04-15

Abstract

The utility model discloses a sine wave inverter parallel system with variable current ratio, which is characterized by comprising a monitoring management unit, and one or a plurality of redundant inverter power supply modules in parallel operation, wherein the monitoring management unit is connected with all the inverter power supply modules through communication signal wires; and the inverter power supply modules are connected through communication signals wires, synchronous signal wires and mean current signal wires, and each inverter power supply module is simultaneously connected with a direct current input end and an alternating current output end. The proportion of load current shared by each module of the parallel system can be set according to needs, the requirement that same-capacity inverter power supply modules are connected in parallel and share load current (equalize current) or inverter power supply modules with different capacities in the parallel system bear the load current according to different proportions can be met, and the parallel function of different-capacity inverter power supply modules is realized.

Description

Sinewave inverter parallel system with variable current ratio

Technical field

The utility model relates to the ac inverter field, relates in particular to a kind of sinewave inverter parallel system with variable current ratio.

Background technology

Inverter is a kind of direct current energy to be transformed into the Technics of Power Electronic Conversion device of AC energy, and its major function is to provide AC energy for power consumption equipment.Sinewave inverter is meant that then ac output voltage is sine-shaped inverter, and below the inverter in the narration all refers to sinewave inverter.

Under the situation of using the inverter powering load,, perhaps when separate unit inverter capacity can not satisfy loading demand, can use a plurality of modules to form inverter parallel system and come work in order to improve the reliability of inverter power supply system.For system is had and the corresponding capacity of number of modules in parallel, require each inverter in parallel can be equably or bear load current in proportion.In order to realize above-mentioned functions, mainly contain following several scheme in the prior art:

Scheme one, the sagging control method of external characteristic.Its control principle is similar to the droop method of direct current output translator parallel current-sharing, and each intermodule in parallel does not have the control signal line.Its parallel current-sharing is droop characteristic with active power, reactive power and the distortion power of its output respectively by making module output frequency, voltage and harmonic voltage, thereby realizes synchronous and current-sharing.This class control method major defect is that efficient is low, external characteristic is relatively poor.

Scheme two, principal and subordinate control method.This scheme is controlled all power models with a control unit, and promptly all power models adopt same sinusoidal pulse width modulation (SPWM) drive, to obtain consistent output.This class control method major defect is to have the fault bottleneck, and reliability is not high.

Scheme three, power error control method.This scheme according to the corresponding adjusting of certain control law each module output voltage amplitude and phase place, realizes each module load-sharing electric current in parallel by detecting each module output work rate variance.The major defect of this class control method is the systematic comparison complexity, generally will realize by DSP.

Scheme four, Average Current Control Method.Its main feature is to be consistent with the electric current that guarantees each inverter by the given of common current ring.Because each inversion module has discreteness, output voltage amplitude and phase place still may have small difference, thereby cause each intermodule to produce bigger circulation.In addition, all there is the problem that can not realize parallel connection between the different capabilities inverter in such scheme.

The utility model content

The controlling schemes complexity that the utility model exists at existing inverter parallel system, can not realize problem such as different capabilities inverter parallel connection, a kind of redundant inverter parallel system with variable current ratio has been proposed, can realize any module in parallel by preset proportion load sharing electric current, and parallel system stable state and dynamic performance parameter are not less than single module.

In order to realize above-mentioned functions, the utility model provides following technical scheme:

A kind of sinewave inverter parallel system with variable current ratio, it is characterized in that: comprise a monitoring management unit, and the inverter module of one or more redundant parallel work, described monitoring management unit is connected with all inverter modules by the signal of communication line; The inverter intermodule is connected by signal of communication line, synchronous signal line and average current signal line, and each inverter module links to each other with direct-flow input end, ac output end simultaneously.

Aforesaid inverter parallel system with variable current ratio is characterized in that: described direct-flow input end is the filtered direct voltage of storage battery or commercial power rectification; Inverter module ac output voltage is a sinusoidal waveform, and the output of each inverter module and the control switch S that connects between parallel system is always exported ₅, this switch is in off-state when shutdown of inverter module or operation irregularity.

Aforesaid inverter parallel system with variable current ratio is characterized in that: described inverter module comprises the inverter bridge that is made of 4 IGBT power switchs, and first output of inverter bridge is by output inductor L _fWith control switch S ₅Link to each other, second output of inverter bridge is by the load equivalent resistance R _LWith control switch S ₅Link to each other output inductor L _fOutput and second output of inverter bridge between be connected with output filter capacitor C _f, output inductor L _fInput link to each other with the inductive current sample circuit, the inductive current sample circuit links to each other with current regulator, output inductor L _fOutput link to each other with output voltage sampling circuit, output voltage sampling circuit links to each other with voltage regulator, the voltage regulator current regulator links to each other with microprocessor, and voltage regulator links to each other with current regulator, and current regulator links to each other with the isolated drive circuit of inverter bridge.

Aforesaid inverter parallel system with variable current ratio is characterized in that: described microprocessor links to each other with synchronization signal processing circuit, and synchronization signal processing circuit connects synchronous signal line.After handling through synchronization signal processing circuit, the baseline sinusoidal wave zero passage synchronizing signal that the parallel system synchronizing signal is sent by each module microprocessor in parallel obtains; The microprocessor of each inverter module produces the baseline sinusoidal wave U of phase place unanimity according to unified synchronizing signal _r

The inverter module adopts two closed loop instantaneous feedback control technologys.Wherein, outer voltage is the output voltage feedback loop, and voltage regulator adopts proportional integral (PI) form, the output I of each voltage regulator _gAfter average treatment as the given signal of current inner loop; Current inner loop is an inverter output inductor current feedback ring, and current inner loop is a follower character, can equivalence be a current amplifier.According to the difference of current inner loop implementation, the ternary different schemes such as ring control, SPWM modulation that stagnate can be arranged.

Aforesaid inverter parallel system with variable current ratio is characterized in that: average current signal line I _GpBy the analog switch S that is connected in series ₆, resistance R 1 and each inverter module voltage regulator output signal line I _gLink to each other described analog switch S ₆When shutdown of inverter module or operation irregularity, be in off-state, the given I of ring in all blocks current in parallel _G1Be I _GpThrough switch S ₆Obtain after handling with the voltage follower formed by computing discharger U1.

Aforesaid inverter parallel system with variable current ratio is characterized in that: described current regulator comprises operational amplifier U1, the positive input terminal of operational amplifier U1 and analog switch S ₆Link to each other, the output of operational amplifier U1 with link to each other with operational amplifier U2 negative input end by resistance R 3, link to each other by resistance R 4 between the negative input end of operational amplifier U2 and the output, the output of operational amplifier U2 inserts the positive input terminal of voltage comparator U3 and the negative input end of voltage comparator U4 respectively, the output of voltage comparator U3 and voltage comparator U4 inserts isolated drive circuit, and the output of inductive current sample circuit inserts the negative input end of operational amplifier U2 by feedback resistance R2.

Aforesaid inverter parallel system with variable current ratio is characterized in that: described current regulator comprises operational amplifier U1, the positive input terminal of operational amplifier U1 and analog switch S ₆Link to each other, the output of operational amplifier U1 with link to each other with operational amplifier U2 negative input end by resistance R 3, the output of operational amplifier U2 links to each other with voltage comparator U3, the output of operational amplifier U2 inserts the negative input end of operational amplifier U5 by resistance R 6, the output of operational amplifier U5 inserts the negative input end of voltage comparator U4, the output of voltage comparator U3 and voltage comparator U4 all inserts isolated drive circuit, the output of inductive current sample circuit is by the negative input end of feedback resistance R2 access operational amplifier U2, and the triangular carrier wave source of positive and negative balancing waveform inserts the negative input end of voltage comparator U3 and the positive input terminal of voltage comparator U4 respectively.

In the system during each inverter module parallel operation, each module output current can equate, also can be arranged to different load currents by the monitoring management unit and share ratio, its adjustment process is sent electric current by microprocessor and is distributed control signal to the feedback resistance R2 of current inner loop and regulate its resistance realization.

The beneficial effects of the utility model:

1, the ratio of each module load sharing electric current of parallel system can be provided with as required, can satisfy with different capabilities inverter module in capacity inverter module load-sharing electric current (current-sharing) in parallel or the parallel system and bear the requirement of load current, realize different capabilities inverter module parallel function according to different proportion;

2, the ratio of each module load sharing electric current of parallel system is regulated the resistance realization of regulating the current inner loop feedback resistance by microprocessor, and control method is simple, need not through complicated calculating;

3, parallel system inverter module adopts output voltage and output inductor current double closed-loop instantaneous feedback control technology, has good stable state and dynamic property.Simultaneously, the inversion module current inner loop can equivalence be a current amplifier, is fit to parallel running, and has output automatic current limiting and short-circuit protection function.

4, the parallel control technology of the voltage and current double closed-loop instantaneous feedback control technology of inverter module employing and this patent employing, can guarantee the stability of parallel system, dynamically consistent with single module with the steady-error coefficient performance, be not subjected to the influence of number of modules in parallel, constitute big capacity inverter system easily;

5, adopt dereliction from the redundant parallel control technology, withdraw from parallel system after the operational blocks which partition system fault automatically, do not influence the normal operation of miscellaneous equipment and device.Simultaneously, the inverter module in the native system allows hot plug operations, has maintainability performance preferably.

Description of drawings

Fig. 1 is the inverter parallel system block diagram;

Fig. 2 is an inverter modular circuit schematic diagram;

Fig. 3 is an inverter module equivalent control block diagram;

Fig. 4 current regulator implementation one;

Fig. 5 current regulator implementation two;

Fig. 6 is digital regulation resistance control principle figure.

Embodiment

Fig. 1 is the theory diagram of the utility model sinewave inverter parallel system.As can be seen from the figure, this system is composed in parallel by a monitoring management unit and n inverter module.Wherein, the monitoring management unit is connected with all inverter modules by the signal of communication line, and its major function is: collect the related data of each module in parallel and upload to higher level's supervisory control system on the one hand; Receive and carry out the instruction of higher level's supervisory control system on the other hand, parallel system is controlled and managed.

Fig. 2 and Fig. 3 have provided inverter modular circuit schematic diagram and the control block diagram that adopts output voltage and output inductor current double closed-loop instantaneous feedback control technology respectively.This module mainly (contains S by inverter bridge ₁～S ₄Totally 4 IGBT power switchs), output inductor L _f, output filter capacitor C _f, the load equivalent resistance R _L, output voltage sampling circuit, inductive current sample circuit, voltage regulator, current regulator, isolated drive circuit, synchronization signal processing circuit, microprocessor and man-machine interface etc. partly form.

Generation and the method for synchronous of inverter module baseline sinusoidal wave Ur: establishing the inverter output voltage frequency is 50Hz, at first the baseline sinusoidal wave one-period is divided into 1000 data points, digital quantity with 1000 data point correspondences during programming leaves among the EPROM, send a digital quantity to D/A converter every 20 microsecond microprocessors, just obtain the baseline sinusoidal wave U of 50Hz _rSimultaneously, export synchronously in order to guarantee each inverter module baseline sinusoidal wave, microprocessor sends a pulse synchronous signal when D/A converter sends first data point of baseline sinusoidal wave positive going zeror crossing to synchronization signal processing circuit.Synchronization signal processing circuit receives pulse synchronous signal that each module in parallel sends and after treatment at a fixed time in the section, sends unique synchronizing signal to the parallel system synchronous signal line, as total synchronizing signal of each module in parallel.During the operational blocks which partition system cisco unity malfunction, synchronization signal processing circuit shields the pulse synchronous signal that this module is sent, and guarantees the parallel system operate as normal.

The operation principle of inverter module: baseline sinusoidal wave U _rWith inverter output voltage feedback signal U _fAfter the overvoltage pi regulator is handled, obtain the given signal I of inductive current _gCurrent regulator is with I _g, average current signal I _Gp, inductor current feedback signal I _LfAfter the processing of signal process current regulator, obtain the drive signal of inverter bridge power tube, after isolating amplification, deliver to power tube S ₁～S ₄, the mid point of two inverter bridge legs obtains containing the impulse waveform of high order harmonic component, obtains the ac output voltage U that needs after filtering _oThereby, finish the voltage transformation process of AC/DC.

The inverter module drops into/withdraws from the control of parallel system: be in malfunction or output voltage U at any inversion module _oBefore abnormal the foundation, switch S ₅And S ₆(see that Fig. 4/Fig. 5) all is in off-state.Wherein, S ₅Can be power relay or power switch pipe, S ₆Can be analog switch or miniature relay.In case microprocessor detects inverter module output voltage U _oWith the parallel system output voltage U _ObBetween effective value and instantaneous value less than a certain numerical value, can think to meet condition in parallel that microprocessor sends switch S ₅And S ₆Continuity signal, this inverter module is put into parallel system.

Fig. 4 has provided a kind of implementation of current regulator, and promptly ternary hysteresis current control mode, the main feature of this mode are rapid dynamic response speeds, simple in structure.Among Fig. 4, U1 and U2 are operational amplifier, and U3 and U4 are voltage comparator, VCC and VEE be respectively+12V and-the 12V working power, U _CBe the given I of inductive current _G1With inductor current feedback signal I _LfThe proportional error amplifying signal, U _H+ and U _H-be respectively positive and negative hysteresis band, its value can realize by the resistance of regulating R6～R8.Ternary hysteresis current control is exactly as feedback quantity and electric current is given compares, as inductive current and the given error value of magnification U of electric current with inductive current _CSurpass the ring upper limit U that stagnates _H+The time, switching tube S ₁And S ₃Conducting, inductive current reduces.Error value of magnification U _CSurpass the ring lower limit U that stagnates _H-The time, switching tube S ₂And S ₄Conducting, inductive current increases.As error value of magnification U _CAt the ring upper limit U that stagnates _H+With lower limit U _H-Between the time, switching tube S ₃And S ₄Conducting, inductive current are in the afterflow state.Like this, inductive current is always constantly followed the tracks of the given signal I of inductive current _g, current inner loop can equivalence be a current follower basically.The shortcoming of this programme is that the switching frequency of inverter in the course of work is unfixing, and switching frequency was minimum when output voltage amplitude was maximum, and switching frequency is the highest during zero passage.By the hysteresis band that changes with output or reference voltage is set, can realize the work of switching tube constant frequency, but can bring the shortcoming of Control Parameter difficult design and system complex.

Fig. 5 has provided another implementation of current regulator, i.e. sinusoidal pulse width modulation (SPWM) mode.The characteristics of this mode are power tube constant frequency switches, and circuit parameter is easy to design, rapid dynamic response speed.Among Fig. 5, U1, U2 and U5 are operational amplifier, and U3 and U4 are voltage comparator, VCC and VEE be respectively+12V and-the 12V working power, U _C+Be the given I of inductive current _G1With inductor current feedback signal I _LfThe proportional error amplifying signal, U _C-With U _C+Equal and opposite in direction, phase phasic difference 180 degree.Triangular carrier is positive and negative balancing waveform, can produce by discrete devices such as amplifiers, also can produce by integrated chips such as ICL8038.Control circuit is according to U _C-, U _C+Compare with the instantaneous value of triangular carrier, produce high frequency SPWM modulation signal to isolated drive circuit driving power pipe S according to certain rules ₁～S ₄Thereby, realize the given signal I of inductive current real-time tracking inductive current _gFunction.At this moment, current inner loop can equivalence be a current follower also.

Parallel current-sharing or different capabilities inverter module are born the principle analysis of load current according to preset proportion: for Fig. 4 or Fig. 5, the multiplication factor of establishing operational amplifier is for infinitely great, has following formula to set up according to preamble as can be known to the specificity analysis of current inner loop:

\frac{I_{g 1}}{R_{3}} = \frac{I_{Lf}}{R} = \frac{K_{if} * I_{L}}{R_{2}} - - - (1)

Then the inductive current of each module is:

I_{L} = \frac{R_{2}}{R_{3} * K_{if}} I_{g 1} = \frac{R_{2}}{R_{3} * K_{if}} I_{gp} - - - (2)

Following formula is the result show, each inverter module inductive current I _LProportional with the parallel system average current signal.Analysis chart 2 as can be known, I _LForm by output filter capacitor electric current and load current two parts, and can ignore by the current error that each module output filter capacitor appearance value error causes, can think load current and the proportional relation of average current signal that each inverter module is born and proportionality coefficient and resistance R 2, R3 and inductor current feedback signal K _IfRelevant.Because the given signal I of each module inductive current _Gp/ I _G1Amplitude is identical with phase place, regulates R2, R3 and K _IfValue can adjust and change the scale that operational blocks which partition system is born load current.

Be that example provides specific embodiment to regulate resistance R 2 below:

If inverter parallel system input direct voltage Vdc=360V, inverter output voltage U _o=220V/50Hz, R1=4.7K Ω, R3=5.1K Ω, operational amplifier is LF353, and comparator is LM311.R2 is digital regulation resistance MAX5481 (end-to-end resistance is 10K Ω), and this potentiometer is 10 non-volatile, linear change, programmable resistance, but adopts 3 line serial SPI compatibility interfaces of pin configuration, and its schematic diagram as shown in Figure 6.Obviously, the resistance adjustment step-length of digital regulation resistance R2 is 10K/1024=9.766 Ω.Can calculate electric current loop current following regulating and controlling precision by formula (2) and be (9.766*100%)/5100=0.191%, satisfy the current-sharing of present inverter parallel system ± 5% fully and regulate requirement.When the resistance of R2 need be regulated, microprocessor distributed control signal to get final product to 3～5 pins of MAX5481 by sending correlated current.

Parallel current-sharing control method with capacity inverter module is as follows: the specified output of inverter module of establishing three parallel connections is 220V/50HZ/20A, and R2 resistance normal value is set to 5.0K, and sliding end is positioned on the 512nd contact.During certain load, three module output currents are respectively 14.0A, 14.9A and 15.8A, and mean value is 14.9A.Then the resistance R 2 of three modules is done following adjusting:

Module 1:R2 need be adjusted to 14.9/14.0=1.064 times of original numerical value, and new sliding end contact position is on 512*1.064=545 contact, and corresponding resistance becomes 5.32K;

Module 2:R2 need be adjusted to 14.9/14.9=1.0 times of original numerical value, and sliding end contact position and resistance are constant;

Module 3:R2 need be adjusted to 14.9/15.8=0.943 times of original numerical value, and new sliding end contact position is on 512*0.943=483 contact, and resistance becomes 4.72K.

It should be noted that because R2 has influenced the inductor current feedback Control Parameter of module in parallel, parallel system average current signal I _Gp/ I _G1May change, but the output current of each module in parallel all becomes 14.90A, thereby realize parallel current-sharing.

It is as follows that different capabilities inverter module is born the load current method according to preset proportion: the inverter module rated output voltage of establishing three parallel connections is 220V/50HZ, output-current rating is towering 20A, 20A and 10A respectively, and then three inversion module R2 resistances are set to 5.0K, 5.0K and 2.5 respectively and can realize that three modules were according to 2: 2: 1 ratio load sharing electric current.If because the inconsistent a variety of causes that waits of resistance parameter causes output current not according to the above ratio, then the resistance according to aforesaid control law adjusting corresponding module resistance R 2 gets final product.

In addition, according to formula (2) as can be known, by with a plurality of digital regulation resistance connection in series-parallel or with methods such as digital regulation resistance and the connection in series-parallel of fixed potential device, also can improve electric current loop Current Control degree of regulation, and then improve the control precision that each module in parallel is born the load current ratio.

Below disclose the utility model with preferred embodiment, so it is not in order to restriction the utility model, and all employings are equal to replaces or technical scheme that the equivalent transformation mode is obtained, all drops within the protection range of the present utility model.

Claims

1. sinewave inverter parallel system with variable current ratio, it is characterized in that: comprise a monitoring management unit, and the inverter module of one or more redundant parallel work, described monitoring management unit is connected with all inverter modules by the signal of communication line; The inverter intermodule is connected by signal of communication line, synchronous signal line and average current signal line, and each inverter module links to each other with direct-flow input end, ac output end simultaneously.

2. the inverter parallel system with variable current ratio according to claim 1 is characterized in that: described direct-flow input end is the filtered direct voltage of storage battery or commercial power rectification; Inverter module ac output voltage is a sinusoidal waveform, and the output of each inverter module and the control switch S that connects between parallel system is always exported ₅, this switch is in off-state when shutdown of inverter module or operation irregularity.

3. the inverter parallel system with variable current ratio according to claim 1 and 2 is characterized in that: described inverter module comprises the inverter bridge that is made of 4 IGBT power switchs, and first output of inverter bridge is by output inductor L _fWith control switch S ₅Link to each other, second output of inverter bridge is by the load equivalent resistance R _LWith control switch S ₅Link to each other output inductor L _fOutput and second output of inverter bridge between be connected with output filter capacitor C _f, output inductor L _fInput link to each other with the inductive current sample circuit, the inductive current sample circuit links to each other with current regulator, output inductor L _fOutput link to each other with output voltage sampling circuit, output voltage sampling circuit links to each other with voltage regulator, the voltage regulator current regulator links to each other with microprocessor, and voltage regulator links to each other with current regulator, and current regulator links to each other with the isolated drive circuit of inverter bridge.

4. the inverter parallel system with variable current ratio according to claim 3 is characterized in that: described microprocessor links to each other with synchronization signal processing circuit, and synchronization signal processing circuit connects synchronous signal line.

5. the inverter parallel system with variable current ratio according to claim 3 is characterized in that: average current signal line I _GpBy the analog switch S that is connected in series ₆, resistance R 1 and each inverter module voltage regulator output signal line I _gLink to each other described analog switch S ₆When shutdown of inverter module or operation irregularity, be in off-state.

6. the inverter parallel system with variable current ratio according to claim 3 is characterized in that: described current regulator comprises operational amplifier U1, the positive input terminal of operational amplifier U1 and analog switch S ₆Link to each other, the output of operational amplifier U1 with link to each other with operational amplifier U2 negative input end by resistance R 3, link to each other by resistance R 4 between the negative input end of operational amplifier U2 and the output, the output of operational amplifier U2 inserts the positive input terminal of voltage comparator U3 and the negative input end of voltage comparator U4 respectively, the output of voltage comparator U3 and voltage comparator U4 inserts isolated drive circuit, and the output of inductive current sample circuit inserts the negative input end of operational amplifier U2 by feedback resistance R2.

7. the inverter parallel system with variable current ratio according to claim 3 is characterized in that: described current regulator comprises operational amplifier U1, the positive input terminal of operational amplifier U1 and analog switch S ₆Link to each other, the output of operational amplifier U1 with link to each other with operational amplifier U2 negative input end by resistance R 3, the output of operational amplifier U2 links to each other with voltage comparator U3, the output of operational amplifier U2 inserts the negative input end of operational amplifier U5 by resistance R 6, the output of operational amplifier U5 inserts the negative input end of voltage comparator U4, the output of voltage comparator U3 and voltage comparator U4 all inserts isolated drive circuit, the output of inductive current sample circuit is by the negative input end of feedback resistance R2 access operational amplifier U2, and the triangular carrier wave source of positive and negative balancing waveform inserts the negative input end of voltage comparator U3 and the positive input terminal of voltage comparator U4 respectively.