CN201750151U - Active power filter device - Google Patents

Abstract

The utility model relates to an active power filter device. The active power filter device can avoid self-sustained oscillation caused by a distributed reactive compensation capacitor and comprises a first current detection device and a voltage detection device which are connected with a three-phase compensated power circuit. Output ends of the first current detection device and the voltage detection device are connected with an input end of a harmonic current computing unit. Three output ends of the harmonic current computing unit are respectively connected with input ends of corresponding subtraction units I to III. Meanwhile, an output end of a capacitor current analog device connected with the three-phase compensated power circuit is also connected with the input ends of the subtraction units I to III. Output ends of the subtraction units I to III are connected with an input end of a compensating current generating unit. A three-phase output end of the compensating current generating unit pours compensating current into the three-phase compensated power circuit and meanwhile, the three-phase output end of the compensating current generating unit is also connected with a second current detection device. An output end of the second current detection device is connected with the input end of the harmonic current computing unit.

Description

A kind of active power filter device

Technical field

The utility model belongs to electric harmonic and administers technical field, relates in particular to a kind of active power filter device that can stable operation in the distribution system that contains the distributed reactive power compensation capacitor.

Background technology

Along with the increase of electric harmonic improvement demand, the application of Active Power Filter-APF is increasingly extensive.Active Power Filter-APF is a kind of initiatively power electronic equipment of filter function that has, it can detect the harmonic current in the power circuit in real time, and by harmonic current equal and opposite in direction in generation in real time of its inner offset current generating unit and the power circuit, opposite polarity offset current injects power circuit, harmonic current in the power circuit is carried out " counteracting ", thereby realize good filter effect.

Yet if contain reactive-load compensation capacitor in the compensated power line, because the coupling of electrical network internal impedance, the offset current that Active Power Filter-APF injects power circuit can partly flow into reactive-load compensation capacitor.If flow through the electric current of reactive-load compensation capacitor be also contained in Active Power Filter-APF in the line current that detects in real time, then the offset current of Active Power Filter-APF injection power circuit will partly be fed back, and near the resonance frequency of reactive-load compensation capacitor and electrical network perception internal impedance, can form strong positive feedback, cause self-oscillation, make the Active Power Filter-APF can't operate as normal.For guaranteeing the Active Power Filter-APF steady operation, usually need the correct installation site of selecting harmonic current detection current transformer, the electric current of reactive-load compensation capacitor is got rid of outside sensed current, perhaps, the electric current of reactive-load compensation capacitor is rejected from total current by the combination of a plurality of current transformers.But, in many distribution systems, all contain the reactive-load compensation capacitor of distribute installing, some capacitor even be included in power consumption equipment inside.The electric current of avoiding the capacitor of these installations that distribute almost is impossible, and this has just restricted the application of Active Power Filter-APF.

Chinese patent ZL200610105202.8 " control method of Active Power Filter-APF and shunt capacitor mixing compensation system " discloses a kind of Control Method of Active Power Filter, in the method, with the instruction current signal in the adding of the harmonic component in the line voltage distribution Active Power Filter-APF, thereby in the offset current of Active Power Filter-APF, contain the current component that is directly proportional with the line voltage distribution harmonic component, the harmonic wave resistance that made the Active Power Filter-APF equivalent parallel plays damping action to contingent self-oscillation.This method can effectively suppress self-oscillation, but has the following disadvantages:

In order effectively to suppress self-oscillation, require the harmonic wave resistance 1/K of Active Power Filter-APF equivalent parallel _VSuitably little, K in other words _VWant enough big (K _VBe the voltage channel coefficient, see original text for details).Experiment showed, K _VValue 10 right and lefts can be obtained enough inhibition self-oscillation effects, so the harmonic voltage of corresponding 1V, and the harmonic current of the corresponding output of filter is about 10A.And in the electric power line voltage 3 times, 5 times, 7 inferior higher usually than low-order harmonic content, modal value is about 1%-3%, and might not be that the target harmonic source of Active Power Filter-APF produces.These voltage harmonic components can correspondence produce bigger harmonic current components in the offset current of the Active Power Filter-APF that adopts above-mentioned control method, and that these harmonic current components are not filtering is required, can not offset with the target harmonic current, and can appear in the filtered current on line side, filtered current on line side harmonic content is increased.For example for 380V system (phase voltage 220V), the corresponding harmonic voltage 4.4V of 2% voltage harmonic content, can cause adopting the Active Power Filter-APF net side residue harmonic current of above-mentioned equivalent parallel harmonic wave resistance control method to increase about 44A, filter effect is caused harmful effect.

By literature search, do not see other control methods that can effectively solve above-mentioned self-oscillation problem as yet.

The utility model content

The purpose of this utility model provides a kind of distributed reactive power compensation capacitor of can avoiding to cause self-oscillatory active power filter device exactly for addressing the above problem.

For achieving the above object, the utility model has adopted following scheme:

A kind of active power filter device, it is made of current transformer group I, current detecting unit I, voltage detection unit, harmonic current computing unit, capacitance current analogue unit, filter unit I-III, subtraction unit I-III, offset current generating unit, current detecting unit II, current transformer group II; Wherein, the primary side of three current transformers is connected on respectively among three-phase compensated power line L1, L2 and the L3 in the current transformer group I, and secondary side connects three groups of inputs of current detecting unit I respectively; Three outputs of current detecting unit I connect the three-phase of harmonic current computing unit respectively by the compensating current signal input; Three phase line inputs of voltage detection unit meet three-phase compensated power line L1, L2 and L3 respectively, and its three outputs connect the three-phase voltage signal input of harmonic current computing unit respectively; The three phase harmonic current signal output end of harmonic current computing unit connects "+" input of subtraction unit I-III respectively; Three phase line inputs of capacitance current analogue unit meet three-phase compensated power line L1, L2 and L3 respectively, and its three outputs connect the input of filter unit I-III respectively; The output of filter unit I-III connects "-" input of subtraction unit I-III respectively; The output of subtraction unit I-III connects the three-phase instruction current signal input part of offset current generating unit respectively; The three-phase offset current output of offset current generating unit connects each exit of three current transformer primary sides in the current transformer group II respectively, and each another exit of three current transformer primary sides meets three-phase compensated power line L1, L2 and L3 respectively; The secondary side of three current transformers connects three groups of inputs of current detecting unit II respectively in the current transformer group II; Three outputs of current detecting unit II connect the three-phase compensating current signal input of harmonic current computing unit respectively.

Described capacitance current analogue unit is made of capacitor I-III, resistor I-III, current transformer group III, current detecting unit III, ratio amplifying unit I-III; Wherein, exit of each of capacitor I-III connects three phase line inputs of described capacitance current analogue unit respectively, and each another exit of capacitor I-III is connected with each exit of resistor I-III respectively; Each another exit of resistor I-III connects each exit of three current transformer primary sides in the current transformer group III respectively, each another exit of three current transformer primary sides interconnects, and is connected with the center line input of described capacitance current analogue unit; The secondary side of three current transformers connects three groups of inputs of current detecting unit III respectively in the current transformer group III; Three outputs of current detecting unit III connect the input of ratio amplifying unit I-III respectively, and the output of ratio amplifying unit I-III is connected with three outputs of described capacitance current analogue unit respectively.

Described capacitance current analogue unit is made of voltage transformer I-III, capacitor IV-VI, resistor IV-VI, resistor VII-IX, operational amplifier I-III; Wherein, each "+" input of voltage transformer I-III primary side connects three phase line inputs of described capacitance current analogue unit respectively, each "-" input of primary side interconnects, and be connected with the center line input of described capacitance current analogue unit, each "+" input of secondary side interconnects, and be connected with reference point of potential, each "-" input of secondary side connects each exit of capacitor IV-VI respectively; Another exit of each of capacitor IV-VI is series resistor device IV-VI respectively; Each another exit of resistor IV-VI connects each "-" input of operational amplifier I-III respectively; Each "+" input of operational amplifier I-III interconnects, and is connected with reference point of potential, and each output is connected with three outputs of described capacitance current analogue unit respectively; Exit of each of resistor VII-IX connects each "-" input of operational amplifier I-III respectively, and each another exit connects each output of operational amplifier I-III respectively.

Described filter unit I-III has identical internal structure, and it is made of resistor X-XII, capacitor VII-IX, buffer cell; Wherein, resistor X-XII and capacitor VII-IX connect into typical double T trapper structure, the input of the described filter unit of its input termination, the input of its output termination buffer cell; The output of the described filter unit of output termination of buffer cell.

A kind of Control Method of Active Power Filter steps of the method are:

(1) records three-phase current instantaneous value signal i among three-phase compensated power line L1, L2 and the L3 by current transformer group I and current detecting unit I ₁, i ₂And i ₃

(2) record three-phase voltage instantaneous value signal u among three-phase compensated power line L1, L2 and the L3 by voltage detection unit ₁, u ₂And u ₃

(3) record the three-phase offset current instantaneous value signal i that the offset current generating unit is exported by current transformer group II and current detecting unit II _C1, i _C2And i _C3

(4) by the harmonic current computing unit according to i ₁, i ₂, i ₃, u ₁, u ₂, u ₃, i _C1, i _C2, i _C3, obtain i with known method ₁, i ₂And i ₃In harmonic component signal i _H1, i _H2And i _H3

(5) produce the capacitance current analog signal i that simulates contained true capacitor electric current in the compensated power line by the capacitance current analogue unit _S1, i _S2And i _S3

(6) by filter unit I-III respectively to i _S1, i _S2And i _S3Carry out filtering, filtering fundamental frequency component wherein obtains three-phase correcting current signal i _E1, i _E2And i _E3

(7) be calculated as follows respectively by subtraction unit I-III and try to achieve three-phase instruction current signal

With

$i_{c1}^{*}=i_{h1}-i_{e1}$

$i_{\mathrm{<figure-callout\; id="2"\; label="c"\; filenames="HDA0000025836840000031.png,HDA0000025836840000041.png"\; state="\{\{state\}\}">c</figure-callout>}2}^{*}=i_{h2}-i_{\mathrm{<figure-callout\; id="2"\; label="e"\; filenames="HDA0000025836840000031.png,HDA0000025836840000041.png"\; state="\{\{state\}\}">e</figure-callout>}2}$

$i_{\mathrm{<figure-callout\; id="3"\; label="c"\; filenames="HDA0000025836840000041.png,HDA0000025836840000051.png"\; state="\{\{state\}\}">c</figure-callout>}3}^{*}=i_{h3}-{\mathrm{<figure-callout\; id="3"\; label="i\; e"\; filenames="HDA0000025836840000041.png,HDA0000025836840000051.png"\; state="\{\{state\}\}">i</figure-callout>}}_e$

(8) with three-phase instruction current signal

With

Send into the three-phase instruction current signal input part of offset current generating unit, press known technology by the offset current generating unit and produce corresponding three-phase offset current i _C1, i _C2And i _C3, inject the three-phase compensated power line.

Wherein a kind of specific implementation method of step (5) is:

(1) lists the current response transfer function G of the true capacitor that contains in the compensated power line ₀(s):

$G_0\left(s\right)=\frac{C_{0}s}{R_0{C}_{0}s+1},$

Wherein: s is a complex variable, C ₀Be the capacitance of true capacitor, R ₀It is actual equivalent series resistance.

(2) structure three phase capacitance current analog unit makes the current response transfer function of its each phase branch road identical, is G ₁And meet following formula (s):

$G_1\left(s\right)=k\&CenterDot;\frac{C_{1}s}{R_1{C}_{1}s+1},$

Wherein: s is a complex variable, C ₁Be the capacitance of analog capacitor, R ₁Be the simulation series resistance, k is the multiplication factor of ratio amplifying unit.

(3) choose parameters C by following condition ₁, k and R ₁:

C ₁＜＜C ₀， $k\&GreaterEqual;\frac{C_0}{2C_1},$ R ₁≥k·R ₀

(4), under three-phase compensated power line voltage drive, produce simulation three phase capacitance current signal i with the capacitance current analogue unit that satisfies above-mentioned requirements _S1, i _S2And i _S3

Wherein a kind of specific implementation method of step (6) is:

(1) by resistor and capacitor constructions typical case double T trapper network, select the value of resistance R and capacitor C, make RC=1/ ω ₀(ω ₀Be the power frequency angular frequency), its transfer function is:

$G_2\left(s\right)=k\&CenterDot;\frac{{\mathrm{<figure-callout\; id="2"\; label="s"\; filenames="HDA0000025836840000031.png,HDA0000025836840000041.png"\; state="\{\{state\}\}">s</figure-callout>}}^2+{\mathrm{\&omega;}}_0^2}{{\mathrm{<figure-callout\; id="2"\; label="s"\; filenames="HDA0000025836840000031.png,HDA0000025836840000041.png"\; state="\{\{state\}\}">s</figure-callout>}}^2+4{\mathrm{\&omega;}}_{0}s+{\mathrm{\&omega;}}_0^2}$

Wherein: s is a complex variable, ω ₀It is the power frequency angular frequency.

(2) serial connection one unity gain buffer behind double T trapper network is not influenced by load with the filtering characteristic of guaranteeing double T trapper network.

(3) with said apparatus to i _S1, i _S2And i _S3Carry out filtering, can filtering fundamental frequency component wherein.

Adopt such scheme, on the basis of known active power filter structure and control method, increased the capacitance current analogue unit, filter unit and subtraction unit, by suitably choosing the structure and parameter of capacitance current analogue unit, can simulate and produce the true capacitor current signal that is comprised in the compensated power line, behind the fundamental frequency component in this signal of filter unit filtering, the analog signal of the capacitance current part that then obtains comprising in the detected harmonic current of Active Power Filter-APF, in the instruction current signal of Active Power Filter-APF, deduct this analog signal, then can effectively eliminate the harmful effect of condenser current Active Power Filter-APF.

Produce the current signal identical if the capacitance current analogue unit can accurately be simulated, then can eliminate the harmful effect of true capacitor fully Active Power Filter-APF with true capacitor.But this is difficult in practice, and particularly the condenser capacity in the compensated power line may change with the changes in demand of reactive power compensation, and the variation that accurately follow the tracks of true capacitor is more difficult.Yet, theory analysis and experimental verification all prove, when adopting such scheme, do not need the artificial capacitor electric current to equate with the actual capacitance electric current, and as long as the artificial capacitor electric current near or greater than the actual capacitance electric current, and suitably select the time constant R of capacitance current analogue unit ₁C ₁, get final product the self-oscillation that effective suppression capacitor causes.Even in the power circuit that does not contain true capacitor, adopt such scheme also can obtain stable filter effect.

Another characteristics of such scheme are for common harmonic frequency, to satisfy ω＜1/R ₁C ₁The amplitude of artificial capacitor current signal is directly proportional with harmonic frequency, to reduce along with the reduction of harmonic frequency, the higher intrinsic low-order harmonic component corresponding simulating capacitance current signal amplitude of content is very little in the electric power line voltage, thereby very little to the harmful effect of filter effect; And as ω＞1/R ₁C ₁The time, the amplitude of artificial capacitor current signal is proportional to k/R ₁, by suitable selection R ₁Value, the harmful effect of higher frequency harmonics voltage also can be limited in reduced levels.

The beneficial effects of the utility model are:

1) solved when known Active Power Filter-APF moves in containing the power circuit of reactive-load compensation capacitor self-oscillatory problem can take place, can stable operation in containing the power circuit of reactive-load compensation capacitor, self-oscillation can not take place.

2) with adding voltage harmonic component in the instruction current signal, with FILTER TO CONTROL is that the control method of equivalent parallel harmonic wave resistance is compared, and device that the utility model provides and control method can significantly reduce in the electric power line voltage intrinsic low-order harmonic component to the harmful effect of filter effect.

3) simple in structure, easy to implement.

Description of drawings

Fig. 1 is the utility model first example structure schematic diagram;

Fig. 2 is the utility model second example structure schematic diagram;

Fig. 3 is the first example structure schematic diagram of the analogue unit of capacitance current described in the utility model;

Fig. 4 is the second example structure schematic diagram of the analogue unit of capacitance current described in the utility model;

Fig. 5 is the first example structure schematic diagram of filter unit described in the utility model;

Fig. 6 is that reactive-load compensation capacitor causes the self-oscillatory experimental waveform of known Active Power Filter-APF;

Fig. 7 is the self-oscillatory experimental waveform that active power filter device described in the utility model and the effective suppression capacitor of control method cause;

Fig. 8 is the experimental waveform of voltage harmonic to active power filter device output current influence described in the utility model;

Fig. 9 is the experimental waveform contrast that voltage harmonic influences the active electric power filter to output current that adopts the described control method of Chinese patent ZL200610105202.8;

Wherein: 1 current transformer group I, 2 current detecting unit I, 3 voltage detection units, 4 harmonic current computing units, 5 capacitance current analogue units, 6 filter unit I, 7 filter unit II, 8 filter unit III, 9 subtraction unit I, 10 subtraction unit II, 11 subtraction unit III, 12 offset current generating units, 13 current detecting unit II, 14 current transformer group II, 15 capacitor I, 16 capacitor II, 17 capacitor III, 18 resistor I, 19 resistor II, 20 resistor III, 21 current transformer group III, 22 current detecting unit III, 23 ratio amplifying unit I, 24 ratio amplifying unit II, 25 ratio amplifying unit III, 26 voltage transformer I, 27 voltage transformer II, 28 voltage transformer III, 29 capacitor IV, 30 capacitor V, 31 capacitor VI, 32 resistor IV, 33 resistor V, 34 resistor VI, 35 resistor VII, 36 resistor VIII, 37 resistor IX, 38 operational amplifier I, 39 operational amplifier II, 40 operational amplifier III, 41 resistor X, 42 resistor XI, 43 resistor XII, 44 capacitor VII, 45 capacitor VIII, 46 capacitor IX, 47 buffer cells.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing and embodiment.

Fig. 1 is the utility model first example structure schematic diagram, and this embodiment is applicable to the filtering of three-phase three wire system.

As shown in Figure 1, a kind of active power filter device, it mainly is made of current transformer group I 1, current detecting unit I 2, voltage detection unit 3, harmonic current computing unit 4, capacitance current analogue unit 5, filter unit I-III 6-8, subtraction unit I-III 9-11, offset current generating unit 12, current detecting unit II 13, current transformer group II 14; Wherein, the primary side of three current transformers is connected on respectively among three-phase compensated power line L1, L2 and the L3 in the current transformer group I 1, and secondary side connects three groups of inputs of current detecting unit I 2 respectively; Three outputs of current detecting unit I 2 connect the three-phase of harmonic current computing unit 4 respectively by the compensating current signal input; Three phase line inputs of voltage detection unit 3 meet three-phase compensated power line L1, L2 and L3 respectively, and its three outputs connect the three-phase voltage signal input of harmonic current computing unit 4 respectively; The three phase harmonic current signal output end of harmonic current computing unit 4 connects "+" input of subtraction unit I-III 9-11 respectively; Three phase line inputs of capacitance current analogue unit 5 meet three-phase compensated power line L1, L2 and L3 respectively, and its three outputs connect the input of filter unit I-III 6-8 respectively; The output of filter unit I-III 6-8 connects "-" input of subtraction unit I-III 9-11 respectively; The output of subtraction unit I-III 9-11 connects the three-phase instruction current signal input part of offset current generating unit 12 respectively; The three-phase offset current output of offset current generating unit 12 connects each exit of three current transformer primary sides in the current transformer group II 14 respectively, and each another exit of three current transformer primary sides meets three-phase compensated power line L1, L2 and L3 respectively; The secondary side of three current transformers connects three groups of inputs of current detecting unit II 13 respectively in the current transformer group II 14; Three outputs of current detecting unit II 13 connect the three-phase compensating current signal input of harmonic current computing unit 4 respectively.

Fig. 2 is the utility model second example structure schematic diagram, and this embodiment is applicable to the filtering of three-phase four wire system.

As shown in Figure 2, for adapting to the filtering demand of three-phase four wire system, each center line input of described voltage detection unit 3, capacitance current analogue unit 5 and offset current generating unit 12 also with by the center line N of compensation distribution line is connected, and other are all identical with first embodiment.

Described active power filter device, as shown in Figure 3, described capacitance current analogue unit 5 is made of capacitor I-III 15-17, resistor I-III 18-20, current transformer group III 21, current detecting unit III 22, ratio amplifying unit I-III 23-25; Wherein, exit of each of capacitor I-III 15-17 connects three phase line inputs of described capacitance current analogue unit 5 respectively, and each another exit of capacitor I-III 15-17 is connected with each exit of resistor I-III 18-20 respectively; Each another exit of resistor I-III 18-20 connects each exit of three current transformer primary sides in the current transformer group III 21 respectively, each another exit of three current transformer primary sides interconnects, and is connected with the center line input of described capacitance current analogue unit 5; The secondary side of three current transformers connects three groups of inputs of current detecting unit III 22 respectively in the current transformer group III 21; Three outputs of current detecting unit III 22 connect the input of ratio amplifying unit I-III 23-25 respectively, and the output of ratio amplifying unit I-III 23-25 is connected with three outputs of described capacitance current analogue unit 5 respectively.

Described active power filter device, as shown in Figure 4, described capacitance current analogue unit 5 is made of voltage transformer I-III 26-28, capacitor IV-VI 29-31, resistor IV-VI 32-34, resistor VII-IX 35-37, operational amplifier I-III 38-40; Wherein, each "+" input of voltage transformer I-III 26-28 primary side connects three phase line inputs of described capacitance current analogue unit 5 respectively, each "-" input of primary side interconnects, and be connected with the center line input of described capacitance current analogue unit 5, each "+" input of secondary side interconnects, and be connected with reference point of potential, each "-" input of secondary side connects each exit of capacitor IV-VI 29-31 respectively; Another exit of each of capacitor IV-VI 29-31 is series resistor device IV-VI 32-34 respectively; Each another exit of resistor IV-VI 32-34 connects each "-" input of operational amplifier I-III 38-40 respectively; Each "+" input of operational amplifier I-III 38-40 interconnects, and is connected with reference point of potential, and each output is connected with three outputs of described capacitance current analogue unit 5 respectively; Exit of each of resistor VII-IX 35-37 connects each "-" input of operational amplifier I-III 38-40 respectively, and each another exit connects each output of operational amplifier I-III 38-40 respectively.

Described active power filter device, as shown in Figure 5, described filter unit I-III 6-8 has identical internal structure, and it is made of resistor X-XII 41-43, capacitor VII-IX 44-46, buffer cell 47; Wherein, resistor X-XII 41-43 and capacitor VII-IX 44-46 connect into typical double T trapper structure, the input of the described filter unit of its input termination, the input of its output termination buffer cell 47; The output of the described filter unit of output termination of buffer cell 47.

A kind of Control Method of Active Power Filter, its step is:

(1) records three-phase current instantaneous value signal i among three-phase compensated power line L1, L2 and the L3 by current transformer group I 1 and current detecting unit I 2 ₁, i ₂And i ₃

(2) record three-phase voltage instantaneous value signal u among three-phase compensated power line L1, L2 and the L3 by voltage detection unit 3 ₁, u ₂And u ₃

(3) record the three-phase offset current instantaneous value signal i that the offset current generating unit is exported by current transformer group II 14 and current detecting unit II 13 _C1, i _C2And i _C3

(4) by harmonic current computing unit 4 according to i ₁, i ₂, i ₃, u ₁, u ₂, u ₃, i _C1, i _C2, i _C3, obtain i with known method ₁, i ₂And i ₃In harmonic component signal i _H1, i _H2And i _H3

(5) produce the capacitance current analog signal i that simulates contained true capacitor electric current in the compensated power line by capacitance current analogue unit 5 _S1, i _S2And i _S3

(6) by filter unit I-III 6,7,8 respectively to i _S1, i _S2And i _S3Carry out filtering, filtering fundamental frequency component wherein obtains three-phase correcting current signal i _E1, i _E2And i _E3

(7) be calculated as follows respectively by subtraction unit I-III 9,10,11 and try to achieve three-phase instruction current signal

With

$i_{c1}^{*}=i_{h1}-i_{e1}$

$i_{c2}^{*}=i_{h2}-{\mathrm{<figure-callout\; id="2"\; label="i\; e"\; filenames="HDA0000025836840000031.png,HDA0000025836840000041.png"\; state="\{\{state\}\}">i</figure-callout>}}_e$

$i_{c3}^{*}=i_{h3}-{\mathrm{<figure-callout\; id="3"\; label="i\; e"\; filenames="HDA0000025836840000041.png,HDA0000025836840000051.png"\; state="\{\{state\}\}">i</figure-callout>}}_e$

(8) with three-phase instruction current signal

With

Send into the three-phase instruction current signal input part of offset current generating unit 12, press known technology by the offset current generating unit and produce corresponding three-phase offset current i _C1, i _C2And i _C3, inject the three-phase compensated power line.

Described Control Method of Active Power Filter, wherein a kind of specific implementation method of step (5) is:

(1) lists the current response transfer function G of the true capacitor that contains in the compensated power line ₀(s):

$G_0\left(s\right)=\frac{C_{0}s}{R_0{C}_{0}s+1},$

Wherein: s is a complex variable, C ₀Be the capacitance of true capacitor, R ₀It is actual equivalent series resistance.

(2) according to Fig. 3 or structure construction three phase capacitance current analog shown in Figure 4 unit, make the parameter of its each phase branch road identical, thereby the current response transfer function is identical, is G ₁And meet following formula (s):

$G_1\left(s\right)=k\&CenterDot;\frac{C_{1}s}{R_1{C}_{1}s+1},$

Wherein: s is a complex variable, C ₁Be the capacitance of analog capacitor, R ₁Be the simulation series resistance, k is the multiplication factor of ratio amplifying unit among Fig. 3, if the no-load voltage ratio of current transformer group III 21 is not equal to 1, then also it should be contained among the k; For Fig. 4, k equal the no-load voltage ratio of voltage transformer I-III 26-28 and be connected across operational amplifier output terminal and "-" input between the product of resistor VII-IX 35-37 resistance.

(3) choose parameters C by following condition ₁, k and R ₁:

C ₁＜＜C0，?

R ₁≥k·R ₀

(4),, under three-phase compensated power line voltage drive, produce simulation three phase capacitance current signal i with the capacitance current analogue unit place in circuit that satisfies above-mentioned requirements as Fig. 1 or shown in Figure 2 _S1, i _S2And i _S3

Described Control Method of Active Power Filter, wherein a kind of specific implementation method of step (6) is:

(1) as shown in Figure 5,, select the value of resistance R and capacitor C, make RC=1/ ω by resistor and capacitor constructions typical case double T trapper network ₀(ω ₀Be the power frequency angular frequency), its transfer function is:

$G_2\left(s\right)=k\&CenterDot;\frac{s^2+{\mathrm{\&omega;}}_0^2}{{\mathrm{<figure-callout\; id="2"\; label="s"\; filenames="HDA0000025836840000031.png,HDA0000025836840000041.png"\; state="\{\{state\}\}">s</figure-callout>}}^2+4{\mathrm{\&omega;}}_{0}s+{\mathrm{\&omega;}}_0^2}$

Wherein: s is a complex variable, ω ₀It is the power frequency angular frequency.

(2) as shown in Figure 5, serial connection one unity gain buffer behind double T trapper network is not influenced by load with the filtering characteristic of guaranteeing double T trapper network.

(3) as Fig. 1 or shown in Figure 2, with said apparatus to i _S1, i _S2And i _S3Carry out filtering, can filtering fundamental frequency component wherein.

As Fig. 1 or shown in Figure 2, unit such as current transformer group I 1 wherein, current detecting unit I 2, voltage detection unit 3, harmonic current computing unit 4, offset current generating unit 12, current detecting unit II 13, current transformer group II 14 are identical with corresponding function unit in the known Active Power Filter-APF, if with the harmonic component signal i of harmonic current computing unit 4 outputs _H1, i _H2And i _H3Directly send into the three-phase instruction current signal input part of offset current generating unit 12, then constitute known Active Power Filter-APF.In the utility model, increased capacitance current analogue unit 5, filter unit I-III 6-8 and subtraction unit I-III 9-11, produce correcting current signal i by capacitance current analogue unit 5 and filter unit I-III 6-8 according to described control method _E1, i _E2And i _E3, and pass through subtraction unit I-III 9-11 to harmonic component signal i _H1, i _H2And i _H3Revise, with revised current signal With

Send into the three-phase instruction current signal input part of offset current generating unit 12 as the instruction current signal, produce the corresponding compensation electric currents by offset current generating unit 12.Correcting current signal i _E1, i _E2With _E3It is simulation to harmonic component in the actual capacitance electric current.By above-mentioned correction, can eliminate of the harmful effect of actual capacitance electric current to Active Power Filter-APF, effectively prevent Active Power Filter-APF generation self-oscillation, realize the purpose of this utility model.

Described current transformer group, voltage transformer, current detecting unit, voltage detection unit, harmonic current computing unit, subtraction unit, offset current generating unit, ratio amplifying unit, buffer cell etc. all can adopt known technology to realize.

For example: current transformer and voltage transformer can adopt standardized product, and current detecting unit can be realized that voltage detection unit can adopt voltage transformer and operational amplifier to realize by standard sample resistance and operational amplifier; Subtraction unit, ratio amplifying unit and buffering unit can adopt the general-purpose operation amplifier to realize;

The harmonic current computing unit can adopt digital signal processor formation digital controllers such as TMS320F2812, according to three-phase voltage signal, load current signal and current on line side signal, finish required harmonic current computing with known technology methods such as instantaneous reactive theoretical method or fast Fourier transform methods; Load current signal and current on line side signal can be as required, by i ₁, i ₂, i ₃And i _C1, i _C2, i _C3Try to achieve according to the current node law;

The offset current generating unit can adopt the technology identical with known Active Power Filter-APF to realize, usually adopt the IGBT semiconductor power device to constitute three phase inverter bridge, DC side is connected to energy storage capacitor, the three-phase inversion output inserts compensated power line by inductor, by methods such as PWM method or hysteresis loop trackings inverter bridge is modulated driving with the instruction current signal, produce required offset current.

Fig. 6-Fig. 9 is the experimental waveform about the utility model implementation result.Among each figure from top to bottom " 1,2,3,4 " four wavy curves be respectively electric current before compensated power line voltage, the compensation, compensation after-current, active electric power filter to output current.Wherein:

Fig. 6 is that reactive-load compensation capacitor causes the self-oscillatory experimental waveform of known Active Power Filter-APF; Owing to contain reactive-load compensation capacitor in the electrical load, caused known Active Power Filter-APF generation self-oscillation.

Fig. 7 is the self-oscillatory experimental waveform that active power filter device described in the utility model and the effective suppression capacitor of control method cause; Active Power Filter-APF running environment is identical with Fig. 6, illustrates to adopt device described in the utility model and control method the effectively self-oscillation that causes of suppression capacitor, the stable operation in parallel with reactive-load compensation capacitor of realization Active Power Filter-APF;

Fig. 8 is the experimental waveform of voltage harmonic to active electric power filter to output current influence described in the utility model; This moment, the Active Power Filter-APF harmonic current detected the secondary side of instrument transformer (current transformer group I) by short circuit, filter is no longer exported effective filtered circuit because of detecting less than the harmonic current of load, with the outstanding influence of observing voltage harmonic to filter to output current.As can be seen, it is very little that active electric power filter to output current described in the utility model is subjected to the voltage harmonic harmful effect.

Fig. 9 is the experimental waveform contrast that voltage harmonic influences the active electric power filter to output current that adopts the described control method of Chinese patent ZL200610105202.8; Experiment condition and Fig. 8 are identical, the voltage channel COEFFICIENT K _VValue be as the criterion can guarantee Active Power Filter-APF stable operation under identical experiment condition.As can be seen, filter to output current is significantly increased by the voltage harmonic harmful effect.

Claims (6)

1. active power filter device, it is characterized in that, it comprises first current sensing means and the voltage check device that is connected with the three-phase compensated power line, both outputs are connected with harmonic current computing unit (4) input, three outputs of harmonic current computing unit (4) then respectively with each self-corresponding subtraction unit I-III (9,10,11) input connects; The capacitance current analogue means output that is connected with the three-phase compensated power line simultaneously also connects with subtraction unit I-III (9,10,11) input; The output of subtraction unit I-III (9,10,11) is connected with offset current generating unit (12) input; Offset current generating unit (12) three-phase output end injects the three-phase compensated power line with offset current, simultaneously also be connected to second current sensing means at offset current generating unit (12) three-phase output end, the second current sensing means output then is connected with harmonic current computing unit (4) input.

2. active power filter device as claimed in claim 1, it is characterized in that, described first current sensing means is identical with the second current sensing means structure, wherein first current sensing means comprises current transformer group I (1), the primary side of its three current transformers is connected on each self-corresponding three-phase compensated power line respectively, secondary side connects three groups of inputs of current detecting unit I (2) respectively, and current detecting unit I (2) output is connected with harmonic current computing unit (4) input;

Described second current sensing means comprises current transformer group II (14), and three current transformer primary sides of current transformer group II (14) are connected on respectively in each self-corresponding offset current generating unit output loop; Secondary side connects three groups of inputs of current detecting unit II (13) respectively; The output of current detecting unit II (13) is connected with harmonic current computing unit (4) input.

3. active power filter device as claimed in claim 1, it is characterized in that, described capacitance current analogue means comprises the capacitance current analogue unit (5) that is connected with the three-phase compensated power line, its three-phase output end respectively with separately filter unit I-III (6,7,8) input connects, filter unit I-III (6,7,8) output then with subtraction unit I-III (9,10,11) input connects.

4. active power filter device as claimed in claim 3, it is characterized in that, described capacitance current analogue unit (5) is by capacitor I-III (15,16,17), resistor I-III (18,19,20), current transformer group III (21), current detecting unit III (22), ratio amplifying unit I-III (23,24,25) constitute; Wherein, exit of each of capacitor I-III (15,16,17) connects three phase line inputs of described capacitance current analogue unit (5) respectively, and another exit of each of capacitor I-III (15,16,17) is series resistor device I-III (18,19,20) respectively; Resistor I-III (18,19,20) each another exit connects each exit of three current transformer primary sides in the current transformer group III (21) respectively, each another exit of three current transformer primary sides interconnects, and is connected with the center line input of described capacitance current analogue unit (5); The secondary side of three current transformers connects three groups of inputs of current detecting unit III (22) respectively in the current transformer group III (21); Three outputs of current detecting unit III (22) connect the input of ratio amplifying unit I-III (23,24,25) respectively, and the output of ratio amplifying unit I-III (23,24,25) is connected with three outputs of described capacitance current analogue unit (5) respectively.

5. active power filter device as claimed in claim 3 is characterized in that, described capacitance current analogue unit (5) is by voltage transformer I-III (26,27,28), capacitor IV-VI (29,30,31), resistor IV-VI (32,33,34), resistor VII-IX (35,36,37), operational amplifier I-III (38,39,40) constitute; Wherein, voltage transformer I-III (26,27,28) each "+" input of primary side connects three phase line inputs of described capacitance current analogue unit (5) respectively, and each "-" input of primary side interconnects, and be connected with the center line input of described capacitance current analogue unit (5), each "+" input of secondary side interconnects, and is connected with reference point of potential, and each "-" input of secondary side connects capacitor IV-VI (29 respectively, 30,31) each exit; Another exit of each of capacitor IV-VI (29,30,31) is series resistor device IV-VI (32,33,34) respectively; Each another exit of resistor IV-VI (32,33,34) connects each "-" input of operational amplifier I-III (38,39,40) respectively; Each "+" input of operational amplifier I-III (38,39,40) interconnects, and is connected with reference point of potential, and each output is connected with three outputs of described capacitance current analogue unit (5) respectively; Exit of each of resistor VII-IX (35,36,37) connects each "-" input of operational amplifier I-III (38,39,40) respectively, and each another exit connects each output of operational amplifier I-III (38,39,40) respectively.

6. active power filter device as claimed in claim 1 is characterized in that, described filter unit I-III (6,7,8) have identical internal structure, each filter unit is by resistor X-XII (41,42,43), capacitor VII-IX (44,45,46), buffer cell (47) constitute; Wherein, resistor X-XII (41,42,43) and capacitor VII-IX (44,45,46) connect into typical double T trapper structure, the input of the described filter unit of its input termination, the input of its output termination buffer cell (47); The output of the described filter unit of output termination of buffer cell (47).

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