CN107785884A - A kind of more level active compensation devices of three-phase four-arm and control method - Google Patents

Abstract

The present invention relates to a kind of more level active compensation devices of three-phase four-arm and control method.Described device includes detection unit, control unit and compensating unit；Wherein, the detection unit connection described control unit, for obtaining residual voltage and being transferred to described control unit；Described control unit connects the compensating unit, for judging whether the power distribution network occurs singlephase earth fault and generate control signal according to the residual voltage；The compensating unit connects the power distribution network, in the presence of the control signal to the power distribution network injecting compensating electric current or zero-sequence current.The control method is based on the more level active compensation devices of above-mentioned three-phase four-arm and realized.The present invention can realize that reliable arc extinguishing during singlephase earth fault occurs for power distribution network.

Description

A kind of more level active compensation devices of three-phase four-arm and control method

Technical field

The present invention relates to electric power network technique field, more particularly to a kind of more level active compensation devices of three-phase four-arm and control Method.

Background technology

China's high voltage distribution network neutral point uses small current neutral grounding mode, including isolated neutral, through arc suppression coil, height Resistance earthing.The reactance of earth point Zero sequence synthetic is bigger than positive sequence synthesis reactance, after singlephase earth fault occurs, is not formed Short-circuit current paths, failure phase and non-faulting mutually flow through load current, and earth fault and wire direct-to-ground capacitance form electric current and led to Road, so that power distribution network can run the long period and search failure, it is improved power supply reliability.

, it is necessary to using arc suppression coil compensation capacitance current after current in the fault point reaches certain value, make current in the fault point control Make in certain limit, can so avoid producing electric arc, above-mentioned way claims resonance grounding or compensation of ground.It is good in stand-by power supply In the case of, high voltage distribution network can also use Neutral Grounding through Resistance in Electrical method, faulty line is produced larger failure electricity Stream, rapid tripping operation, avoids arc grounding over-voltage to causing equipment to injure.

Because arc suppression coil can only compensate First Harmonic Reactive Power, and produce current in resistance property.After power distribution network reaches certain scale, The current in resistance property of Single-phase Ground Connection Failure may make trouble point can not blow-out.Therefore need to provide a kind of device and method and make height Press-fitting power network occurs during singlephase earth fault the electric arc of trouble point can be made reliably to extinguish.

The content of the invention

For in the prior art the defects of, the present invention provides a kind of more level active compensation devices of three-phase four-arm and control Method, can solve trouble point when singlephase earth fault occurs for power distribution network in the prior art and produce what electric arc can not reliably extinguish Problem.

In a first aspect, the invention provides a kind of more level active compensation devices of three-phase four-arm, including：Detection unit, Control unit and compensating unit；Wherein,

The detection unit connects described control unit, for obtaining power distribution network residual voltage and being transferred to the control list Member；

Described control unit connects the compensating unit, for judging whether the power distribution network is sent out according to the residual voltage Raw singlephase earth fault simultaneously generates control signal；

The compensating unit connects the power distribution network, for being injected in the presence of the control signal to the power distribution network Compensate electric current or zero-sequence current.

Alternatively, the compensating unit includes the power subelement and ground connection subelement corresponding to the power distribution network ABC phases；

One end of the power subelement of corresponding A BC phases connects corresponding single-phase bus respectively；During the other end is connected to form Property point；

One end of the ground connection subelement connects the neutral point, is grounded anotherly.

Alternatively, the power subelement is made up of at least two power models, at least two power models series connection.

Alternatively, the ground connection subelement is made up of at least two power models, at least two power models series connection.

Alternatively, the power model includes the H bridges that 4 switching devices and electric capacity are formed；

The positive pole of the first end connection electric capacity of first switch device, the second end connects the first end of the 3rd switching device, institute The second end for stating the 3rd switching device connects the negative pole of the electric capacity；

The positive pole of the first end connection electric capacity of second switch device, the second end connects the first end of the 4th switching device, institute The second end for stating the 4th switching device connects the negative pole of the electric capacity.

When the ground connection subelement or the power subelement are made up of at least two power models, in the H bridges Second in first switch device single-phase bus corresponding with the first end connection of the 3rd switching device or upper level power model Second end of switching device and the 4th switching device, second switch device is connected next stage with the 4th switching device in the H bridges The first switch device of power model and the first end or ground of the 3rd switching device.

Alternatively, the quantity of the power model of series connection and the relation of line voltage are：

U_AB,BC,CA=V_H×N；

Wherein, U_AB,BC,CARepresent line voltage, V_HH bridge rated outputs are represented, N represents power subelement and ground connection subelement string Join H bridges quantity and.

Alternatively, the detection unit includes voltage transformer.

Second aspect, the embodiment of the present invention additionally provide a kind of for the more level actives benefits of three-phase four-arm described above The control method of device is repaid, including：

Generation injection control signal makes the compensating unit inject zero-sequence current to power distribution network bus, to obtain the distribution The direct-to-ground capacitance and bleeder resistance of net；

Obtain the residual voltage of the power distribution network, when the residual voltage exceedes residual voltage preset value if judge to occur Singlephase earth fault；

The amplitude and phase of compensation electric current are calculated according to the residual voltage and the direct-to-ground capacitance and leak resistance, so that The compensating unit is injected into the power distribution network of generation singlephase earth fault by electric current is compensated.

Alternatively, also include before control signal is injected in generation：

The ground connection control signal of generation first is grounded compensating unit.

Alternatively, the compensation electric current is capacity current and current in resistance property over the ground.

Alternatively, when the residual voltage is not less than residual voltage preset value, the control method also includes：

Generation second ground connection control signal make the compensating unit with disconnect；

According to the amplitude and phase relation of the voltage and current of power distribution network ABC phases, compensation electric current is obtained and by the compensation Unit is injected into the power distribution network bus to improve its power factor.

Alternatively, the quantity of the power model of series connection is calculated using following formula：

U_AB,BC,CA=V_H×N；

Wherein, U_AB,BC,CARepresent line voltage, V_HH bridge rated outputs are represented, N represents that single power subelement and ground connection are single First H bridges quantity and.

As shown from the above technical solution, the present invention provides through the residual voltage for setting detection unit to obtain power distribution network bus And it is transferred to described control unit；Judge whether power distribution network bus occurs singlephase earth fault according to residual voltage by control unit And generate control signal；Compensating unit in the presence of the control signal to the power distribution network bus injecting compensating electric current or Zero-sequence current.When singlephase earth fault occurs, compensating unit is to power distribution network bus injecting compensating electric current, so that current in the fault point Control avoids trouble point that electric arc occurs in predetermined target value；When without singlephase earth fault, injection zero-sequence current is matched somebody with somebody with detecting Power network direct-to-ground capacitance and leak resistance over the ground.The present invention can compensate electric current by harmonic into power network, make up in the prior art Arc suppression coil can only compensate the defects of First Harmonic Reactive Power.Also, the present invention can actively inject zero-sequence current, normal work is calculated The direct-to-ground capacitance and bleeder resistance of power distribution network when making, not only leak resistance electric current can be can also compensate for compensating electric capacity electric current, carried The accuracy rate of height compensation.

Brief description of the drawings

The features and advantages of the present invention can be more clearly understood by reference to accompanying drawing, accompanying drawing is schematically without that should manage Solve to carry out any restrictions to the present invention, in the accompanying drawings：

Fig. 1 is a kind of more level active compensation device structural representations of three-phase four-arm provided in an embodiment of the present invention；

Fig. 2 is the electrical block diagram of A phases compensating unit in Fig. 1；

Three-phase four-arm more level active compensation device compensation current diagrams when Fig. 3 is singlephase earth fault；

Fig. 4 is provided in an embodiment of the present invention a kind of to be used for the more level active compensation devices of three-phase four-arm described in Fig. 1 Control method.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is Part of the embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

In a first aspect, the invention provides a kind of more level active compensation devices of three-phase four-arm, as shown in figure 1, including： Detection unit 1, control unit 2 and compensating unit 3；Wherein,

Detection unit 1 connects control unit 2, for obtaining the residual voltage of power distribution network and being transferred to control unit 2；

Control unit 2 connects compensating unit 3, for judging whether power distribution network occurs singlephase earth fault according to residual voltage And generate control signal；

Compensating unit 3 connects power distribution network, in the presence of control signal to power distribution network bus injecting compensating electric current or Person's zero-sequence current.

It should be noted that detection unit 1 also includes voltage transformer in the embodiment of the present invention.The detection unit 1 is specific For gathering the residual voltage of power distribution network bus, circuit realiration of the prior art can be used, will not be described in detail herein.The detection Unit 1 can measure respectively every phase busbar voltage and then synthesizes residual voltage, can also the synthesis of direct measurement three-phase bus zero Sequence voltage, specific metering system can select according to scene, which kind of mode can obtain residual voltage regardless of, the present invention does not make Limit.The measurement of zero-sequence current can use the current transformer that compensation device exports, and measurement phase current synthesizes zero-sequence current, The zero-sequence current that can be synthesized with direct measurement three-phase, specific metering system can select according to scene, no matter which kind of mode all may be used To obtain zero-sequence current, the present invention is not construed as limiting.

The effect of control unit 2 is to judge power distribution network according to the residual voltage that detection unit 1 detects in the embodiment of the present invention Whether bus occurs singlephase earth fault, for example, singlephase earth fault or working properly, then basis occur for power distribution network bus Control signal corresponding to demand generation.In practical application, the control unit 2 can use such as single-chip microcomputer, DSP or ARM cores Piece etc. realizes that those skilled in the art can select suitable control chip according to concrete scene, and the present invention no longer limits.

In the embodiment of the present invention, compensating unit 3 includes sub single corresponding to the power subelement of the ABC phases of power distribution network and ground connection Member；One end of the power subelement of corresponding A BC phases connects corresponding single-phase bus respectively；The other end is connected to form neutral point； One end of the ground connection subelement connects the neutral point, is grounded anotherly.As shown in figure 1, the compensating unit 3 includes A phase work( Rate subelement 31, B phase power subelement 32, C phase power subelement 33 and ground connection subelement 34.Wherein, A phases power subelement 31st, the first end of B phases power subelement 32 and C phase power subelement 33 (top in Fig. 1) is respectively connected to power distribution network bus A phase, B phase, C phase；Second end (Fig. 1 lower section) is connected to the first end of ground connection subelement 34, is grounded the second of subelement 34 End ground connection.Each power subelement and ground connection subelement are connected with control unit 2, each work(in the presence of control signal Power distribution network injecting compensating electric current of the rate subelement with ground connection subelement collective effect to generation earth fault.

As shown in figure 1, when power subelement is made up of at least two power models, at least two power model series connection Form.The power model includes the H bridges that 4 switching devices and electric capacity are formed.The first end connection electricity of first switch device Appearance C1 positive pole (at the points of P1 shown in Fig. 2), the first end (at the points of P2 shown in Fig. 2) of the 3rd switching device of the second end connection, the 3rd The negative pole of the second end connection electric capacity of switching device (at the points of P3 shown in Fig. 2)；The first end connection electric capacity of second switch device Positive pole, the second end connect the first end (at the points of P4 shown in Fig. 2) of the 4th switching device, the second end connection institute of the 4th switching device State the negative pole of electric capacity.

When the ground connection subelement or the power subelement are made up of at least two power models, in the H bridges Second in first switch device single-phase bus corresponding with the first end connection of the 3rd switching device or upper level power model Second end of switching device and the 4th switching device, second switch device is connected next stage with the 4th switching device in the H bridges The first switch device of power model and the first end or ground of the 3rd switching device.

Power subelement is in series by 5 power models in one embodiment of the invention, the circuit shown in Fig. 2 successively to Down for first power model A1, second power model A2 ..., (A2, A3, A4, A5 are in fig. 2 by the 5th power model A5 It is not shown), wherein the input A connection A phase buses of first power subelement, output end connects second power subelement A2 Input；Second power subelement A2 output end connects the 3rd power subelement A3 input ... ..., the 5th The input N of the output end connection ground connection subelement of power model.When power subelement is made up of 1 power model, the work( First input and output P1 connection electric capacity C1 of rate module positive pole, the 3rd input and output P3 connection electric capacity C1 negative pole, second is defeated Enter to export P2 connection A phase buses, the 4th input and output P4 connects the output end of the power subelement.The embodiment of the present invention passes through control Unit 2 processed controls the switch of switching device in each H bridges to power distribution network injecting compensating electric current or zero-sequence current respectively.

Subelement 34 is grounded in the embodiment of the present invention to be made up of at least two power models.It will be appreciated that the ground connection is sub Unit 34 can have identical circuit structure with power subelement 31 (or power subelement 32, power subelement 33), have Body circuit structure is referred to the circuit structure of power subelement, will not be repeated here.

It should be noted that power subelement and/or ground connection subelement use at least two power in the embodiment of the present invention Module composition.With the increase of power model, in the case where power distribution network busbar voltage is constant, the partial pressure of each power model by Gradual change is low, so as to apply in greater degree voltage.For example, the quantity for the power model connected in the embodiment of the present invention with The relation of line voltage is：

U_AB,BC,CA=V_H×N；

Wherein, U_AB,BC,CARepresent line voltage, V_HH bridge rated outputs are represented, N represents that single power word cell and ground connection are single First H bridges quantity and, the pressure voltages of H bridges can be substantially reduced, the pressure-resistant degree of gate-controlled switch device is required to reduce.

When power subelement and the quantity of ground connection subelement output-voltage levels number and power model meet：

Q=2 × N+1；

Wherein, Q represents output-voltage levels number.

In practical application, can according to power distribution network busbar voltage (when isolated neutral, or single-phase earthing occurs therefore Barrier, perfect phase voltage riseAgain, it is therefore desirable to configured according to line voltage) and the pressure-resistant determination of power model is each The quantity of the power model of power subelement, so as to realize that each power model is operated in effective resistance to intermediate pressure section.

A kind of course of work of the more level active compensation devices of three-phase four-arm provided in an embodiment of the present invention includes：

During power distribution network normal work, the generation injection control signal of control unit 2 is sent to compensating unit 3.Compensating unit 3 The power subelement and ground connection subelement of ABC phases, switch letter are sent to according to injection control signal generation respective switch signal Number be the open and close signal of power electronic devices control terminal in each power model, by control the unlatching of power model with Close to power distribution network and inject zero-sequence current.Detection unit 1 now detects the residual voltage of power distribution network bus, according to Injection Current and The residual voltage of measurement, so as to obtain the direct-to-ground capacitance of power distribution network and bleeder resistance.It should be noted that in above-mentioned mistake Cheng Zhong, ground connection subelement are kept it turned on, and neutral point is kept ground connection.

When residual voltage exceedes residual voltage preset value, detection unit 1 judges that single-phase earthing event occurs for power distribution network bus Barrier.As shown in figure 3, now control unit 2 calculates benefit according to the residual voltage currently measured and the direct-to-ground capacitance measured before Repay the amplitude and phase of electric current.Circular：

Such as A, B, C phase voltage are before single-phase faultA phases occur single-phase Metallic short circuit, each phase voltage are changed into Power distribution network ground capacity is measured before failure It is R for C and leak resistance, capacitance current caused by power distribution network and Leakage Current sum are It is I that compensation device, which produces compensation electric current,_B=-I.

Control unit 2 generates compensating control signal according to above-mentioned compensation electric current and is sent to compensating unit 3.Compensating unit 3 According to above-mentioned compensating control signal to power distribution network bus (as shown in figure 3, as single phase metal earth fault, B phases and C phases occur for A phases Produce compensation electric current, B phases compensate electric current and C phases compensate electric current and equal to the compensation electric current I calculated_B=-I) in injection mend Electric current is repaid, so as in minimum value, avoid electric arc from occurring the current limit of single-phase fault point.In the mistake of above-mentioned injecting compensating electric current Cheng Zhong, ground connection subelement keep ground state.

In practical application, according to the demand of different power distribution networks, the more level of three-phase four-arm provided in an embodiment of the present invention Active power compensator can have different compensation ways.For example, when power distribution network bus needs band singlephase earth fault operation, this When compensate electric current as capacity current and Leakage Current over the ground.When power distribution network needs quick excision singlephase earth fault, the benefit It is overcompensation electric current to repay electric current, can so start zero-sequenceprotection fast trip, so as to cut off faulty line and single-phase earthing event Barrier point.

In practical application, the bleeder resistance that the embodiment of the present invention measures can conveniently detect the insulation situation of power distribution network, carry High security of distribution network energy.

In practical application, the more level active compensation devices of three-phase four-arm provided in an embodiment of the present invention are also used as nothing Reactive power compensation installations use, and now breaker disconnection is that power subelement is earth-free.Control compensating unit 3 is generated according to power factor The control signal of action, the reactive power and harmonic power of control power subelement compensation power distribution network, so as to reach regulation distribution The purpose of net quality of voltage.

Second aspect, the embodiment of the present invention additionally provide a kind of more level actives of three-phase four-arm being used for as described above The control method of compensation device, as shown in figure 4, including：

S1, generation injection control signal make the compensating unit inject zero-sequence current to power distribution network bus, with described in acquisition The direct-to-ground capacitance and bleeder resistance of power distribution network；

S2, the residual voltage for obtaining the power distribution network bus, when the residual voltage exceedes residual voltage preset value if Judge singlephase earth fault occurs；

S3, the amplitude and phase for compensating electric current are calculated according to the residual voltage and the direct-to-ground capacitance, so that the benefit Repay unit and compensation electric current is injected into the power distribution network that singlephase earth fault occurs.

Alternatively, also include before control signal is injected in generation：

The ground connection control signal of generation first is grounded compensating unit.

Alternatively, the compensation electric current is capacity current and current in resistance property over the ground.

Alternatively, when the residual voltage is not less than residual voltage preset value, the control method also includes：

Generation second ground connection control signal make the compensating unit with disconnect；

Compensating unit can be operated in reactive-load compensation or active power filtering working condition, improve system power quality.Alternatively, The quantity of the power model of series connection is calculated using following formula：

U_AB,BC,CA=V_H×N；

Wherein, U_AB,BC,CARepresent line voltage, V_HH bridge rated outputs are represented, N represents power subelement and ground connection subelement string Join H bridges quantity and.

As seen from the above, control method provided in an embodiment of the present invention is based on the more level of three-phase four-arm described above Active power compensator is realized, thus can solve same technical problem, and obtains identical technique effect, herein no longer one by one Repeat.

In the present invention, term " first ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that instruction or Imply relative importance.Term " multiple " refers to two or more, is limited unless otherwise clear and definite.

Although being described in conjunction with the accompanying embodiments of the present invention, those skilled in the art can not depart from this hair Various modifications and variations are made in the case of bright spirit and scope, such modifications and variations are each fallen within by appended claims Within limited range.

Claims (12)

1. A kind of 1. more level active compensation devices of three-phase four-arm, it is characterised in that including：Detection unit, control unit and benefit Repay unit；Wherein,

   The detection unit connects described control unit, for obtaining power distribution network residual voltage and being transferred to described control unit；

   Described control unit connects the compensating unit, for judging whether the power distribution network occurs list according to the residual voltage Phase earth fault simultaneously generates control signal；

   The compensating unit connects the power distribution network, in the presence of the control signal to the power distribution network injecting compensating Electric current or zero-sequence current.
2. 2. the more level active compensation devices of three-phase four-arm according to claim 1, it is characterised in that the compensating unit Including the power subelement corresponding to the power distribution network ABC phases and ground connection subelement；

   One end of the power subelement of corresponding A BC phases connects corresponding single-phase bus respectively；The other end is connected to form neutral point；

   One end of the ground connection subelement connects the neutral point, is grounded anotherly.
3. 3. the more level active compensation devices of three-phase four-arm according to claim 2, it is characterised in that power is single Member is made up of at least two power models, at least two power models series connection.
4. 4. the more level active compensation devices of three-phase four-arm according to claim 2, it is characterised in that ground connection is single Member is made up of at least two power models, at least two power models series connection.
5. 5. the more level active compensation devices of three-phase four-arm according to claim 3 or 4, it is characterised in that the power Module includes the H bridges that 4 switching devices and electric capacity are formed；

   The positive pole of the first end connection electric capacity of first switch device, the second end connect the first end of the 3rd switching device, and described the Second end of three switching devices connects the negative pole of the electric capacity；

   The positive pole of the first end connection electric capacity of second switch device, the second end connect the first end of the 4th switching device, and described the Second end of four switching devices connects the negative pole of the electric capacity.

   When the ground connection subelement or the power subelement are made up of at least two power models, first in the H bridges Second switch in switching device single-phase bus corresponding with the first end connection of the 3rd switching device or upper level power model Second end of device and the 4th switching device, second switch device is connected next stage power with the 4th switching device in the H bridges The first switch device of module and the first end or ground of the 3rd switching device.
6. 6. the more level active compensation devices of three-phase four-arm according to claim 5, it is characterised in that the power mould of series connection The quantity of block and the relation of line voltage are：

   U_AB,BC,CA=V_H×N；

   Wherein, U_AB,BC,CARepresent line voltage, V_HH bridge rated outputs are represented, N represents single power subelement and ground connection subelement H Bridge quantity and.
7. 7. the more level active compensation devices of three-phase four-arm according to claim 1, it is characterised in that the detection unit Including voltage transformer.
8. A kind of 8. controlling party for being used for the more level active compensation devices of three-phase four-arm as described in any one of claim 1~7 Method, it is characterised in that including：

   Generation injection control signal makes the compensating unit inject zero-sequence current to power distribution network bus, to obtain the power distribution network Direct-to-ground capacitance and bleeder resistance；

   Obtain the residual voltage of the power distribution network, when the residual voltage exceedes residual voltage preset value if judge to occur it is single-phase Earth fault；

   The amplitude and phase of compensation electric current are calculated according to the residual voltage and the direct-to-ground capacitance and leak resistance, so that described Compensating unit is injected into the power distribution network of generation singlephase earth fault by electric current is compensated.
9. 9. control method according to claim 8, it is characterised in that also include before control signal is injected in generation：

   The ground connection control signal of generation first is grounded compensating unit.
10. 10. control method according to claim 9, it is characterised in that the compensation electric current is capacity current and resistance over the ground Property electric current.
11. 11. according to the control method described in any one of claim 8~10, it is characterised in that when the residual voltage not less than During residual voltage preset value, the control method also includes：

    Generation second ground connection control signal make the compensating unit with disconnect；

    According to the amplitude and phase relation of the voltage and current of power distribution network ABC phases, compensation electric current is obtained and by the compensating unit It is injected into the power distribution network bus to improve its power factor.
12. 12. control method according to claim 8, it is characterised in that the quantity of the power model of series connection utilizes following table It is calculated up to formula：

    U_AB,BC,CA=V_H×N；

    Wherein, U_AB,BC,CARepresent line voltage, V_HH bridge rated outputs are represented, N represents single power subelement and ground connection subelement H Bridge quantity and.