CN109546911A - Based on the single current sensor motor control method for mixing pulse modulation technology - Google Patents
Based on the single current sensor motor control method for mixing pulse modulation technology Download PDFInfo
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- CN109546911A CN109546911A CN201811447808.9A CN201811447808A CN109546911A CN 109546911 A CN109546911 A CN 109546911A CN 201811447808 A CN201811447808 A CN 201811447808A CN 109546911 A CN109546911 A CN 109546911A
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02P—CONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORS OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS
- H02P21/00—Arrangements or methods for the control of electric machines by vector control, e.g. by control of field orientation
- H02P21/0003—Control strategies in general, e.g. linear type, e.g. P, PI, PID, using robust control
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02P—CONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORS OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS
- H02P25/00—Arrangements or methods for the control of AC motors characterised by the kind of AC motor or by structural details
- H02P25/02—Arrangements or methods for the control of AC motors characterised by the kind of AC motor or by structural details characterised by the kind of motor
- H02P25/022—Synchronous motors
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02P—CONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORS OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS
- H02P2207/00—Indexing scheme relating to controlling arrangements characterised by the type of motor
- H02P2207/05—Synchronous machines, e.g. with permanent magnets or DC excitation
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- Control Of Ac Motors In General (AREA)
- Control Of Motors That Do Not Use Commutators (AREA)
Abstract
The invention discloses a kind of based on the single current sensor motor control method for mixing pulse modulation technology, and described method includes following steps: Step 1: two kinds of single current sensor circuit topological structures of building;Step 2: keeping the PWM modulation strategy of the sector II and the sector V constant, the PWM modulation strategy of the sector I, the sector III, the sector IV and the sector VI is changed;Step 3: two voltage vectors effect moment in a PWM cycle samples single current sensor or single sampling resistor, two out of phase current informations are obtained in any one sector, reconstruct three-phase windings electric current further according to the condition of ia+ib+ic=0 in star-like connection motor.The present invention solves the electric current reconstructing blind zone problem of sector borders, reduces reconstruct current harmonics, improves the runnability of motor, is a kind of drive and control of electric machine strategy of inexpensive small size.
Description
Technical field
The invention belongs to motor control technology fields, are related to a kind of based on the motor control side for mixing pulse modulation technology
Method, it is only necessary to which a current sensor or sampling resistor can realize the vector controlled of motor.
Background technique
Permanent magnet synchronous motor (PMSM) has high reliability, high power density, high control precision etc. excellent compared to other motors
Point, therefore it is in numerically-controlled machine tool, robot servo control, electric car, military issue weapons, deep water servo-system and aerospace etc.
Field has obtained development at full speed.
Single current sensor technology, also referred to as phase current reconstruction technology are that a kind of permanent magnet synchronous motor of low cost drives
Dynamic technology the basic principle is that reconstructing motor three-phase windings electric current using a current sensor, and then realizes the arrow of motor
Amount control.Using this technology, the volume and cost of driver are minimized, and reduce sensor additional lead, are avoided
It is disturbed as brought by current sensor sampling difference.
However, due to the limitation of minimal sampling time there is electric current reconstructing in almost all of single current sensor technology
Blind area.Current existing phase current reconstruction technology is divided into DC bus sampling method and inverter leg sampling method.DC bus is adopted
Than region and sector boundary regions, there are electric current reconstructing blind areas in the low modulation of space vector of voltage hexagon for sample method;Inverter branch
Road sampling method generallys use Hall current current sensor and samples the sum of two branch currents, adopts although can solve DC bus
Blind area existing for sample method, but the additional lead of this method is very long, causes signal interference, while cannot be real using sampling resistor
It is existing.Therefore, if deficiency existing for above two method can be comprehensively considered, a kind of novel single current sensor technology, solution are proposed
Certainly electric current reconstructing blind area is not increased additional lead and interference, and can be realized using sampling resistor, to the entire permanent-magnet synchronous of reduction
The volume and cost of motor control system are of great significance.
Summary of the invention
The present invention reduces reconstruct current harmonics, promotes motor to solve the electric current reconstructing blind zone problems of sector borders
Runnability proposes two kinds of novel single current sensor circuit topologies, proposes on the basis of the topology a kind of novel
Based on the single current sensor motor control method for mixing pulse modulation technology, the phase current reconstruction of permanent magnet synchronous motor is realized.
The purpose of the present invention is what is be achieved through the following technical solutions:
A kind of single current sensor motor control method based on mixing pulse modulation technology, includes the following steps:
Step 1: building single current sensor circuit topological structure:
Method one: on the basis of the topological structure of three-phase voltage source inverter, single current sensor or sampling resistor are installed on
Between switch transistor T 1 and T3, single current sensor circuit topological structure is constructed;
Method two: on the basis of the topological structure of three-phase voltage source inverter, single current sensor or sampling resistor are installed on
Between switch transistor T 2 and T4, single current sensor circuit topological structure is constructed;
Step 2: keeping the PWM modulation strategy of the sector II and the sector V in six sectors that basic voltage vectors V1 ~ V6 is formed
It is constant, change the PWM modulation strategy of the sector I, the sector III, the sector IV and the sector VI, in which: the PWM tune of the sector I and the sector IV
System strategy are as follows: exchange after negating operation by the PWM waveform of A, C two-phase;The PWM modulation strategy of the sector III and the sector VI
Are as follows: the PWM waveform of A, B two-phase exchange after negating operation;
Step 3: two voltage vectors effect moment in a PWM cycle carries out single current sensor or single sampling resistor
Sampling, obtains two out of phase current informations, further according to ia+ib+ic=0 in star-like connection motor in any one sector
Condition reconstruct three-phase windings electric current, the sampling rule is as follows:
The first single current sensor circuit topological structure:
The sector I: sampling instant V3 (010), sampled result ib;Sampling instant V6 (101), sampled result ic;
The sector II: sampling instant V7 (111), sampled result ib+ic;Sampling instant V2 (110) or V3 (010), sampled result ib;
The sector III: sampling instant V2 (110), sampled result ib;Sampling instant V5 (001), sampled result ic;
The sector IV: sampling instant V3 (010), sampled result ib;Sampling instant V6 (101), sampled result ic;
The sector V: sampling instant V7 (111), sampled result ib+ic;Sampling instant V5 (001) or V6 (101), sampled result ic;
The sector VI: sampling instant V2 (110), sampled result ib;Sampling instant V5 (001), sampled result ic;
Second of single current sensor circuit topological structure:
The sector I: sampling instant V3 (010), sampled result ic;Sampling instant V6 (101), sampled result ib;
The sector II: sampling instant V0 (000), sampled result ib+ic;Sampling instant V2 (110) or V3 (010), sampled result ic;
The sector III: sampling instant V2 (110), sampled result ic;Sampling instant V5 (001), sampled result ib;
The sector IV: sampling instant V3 (010), sampled result ic;Sampling instant V6 (101), sampled result ib;
The sector V: sampling instant V7 (111), sampled result ib+ic;Sampling instant V5 (001) or V6 (101), sampled result ib;
The sector VI: sampling instant V2 (110), sampled result ic;Sampling instant V5 (001), sampled result ib.
Compared with the prior art, the present invention has the advantage that
1, the invention proposes a kind of single current sensor technologies of New Topological.Unlike conventional method, single electric current is passed
Sensor is not mounted on DC bus, and is mounted in the branch road of inverter.Realize the novel single current sensor
Technology, there are two kinds of single current sensor mounting means, therefore correspond to two kinds of circuit topologies.Under both circuit topologies,
Different moments in one PWM cycle sample single current sensor, available two out of phase current informations, into
And reconstruct the three-phase current of motor.
2, it when using method of the invention, in six sectors of space vector of voltage hexagon, needs to wherein four
The PWM modulation strategy of sector, which is modified, is just able to achieve the reconstruct of three-phase current, and does not need to change in other two sector
PWM modulation strategy, two kinds of PWM modulation strategies form a kind of novel mixing pulse modulation technology, realize in above two circuit
Topology is lower to carry out three-phase current reconstruct.
3, in novel single current sensor technology of the invention, current sensor is not resided on DC bus, and
Also the two branches up-sampling and electric current for not residing at inverter, are applicable not only to the electricity of current sensor sampling in this way
Machine control strategy, and it is suitable for the motor control strategy of single resistance sampling.Compared with the method for DC bus sampling, the party
Electric current reconstructing blind area is not present in six sector juncture areas of space vector of voltage hexagon in method, so not needing additional benefit
Repay algorithm;, can be to avoid the too long caused electromagnetic interference of route compared with the method that two branches sample simultaneously, and can use
Single sampling resistor realizes there is broader practice occasion.
Detailed description of the invention
Fig. 1 is the installation site of two kinds of circuit topologies and single current sensor in the present invention;
Fig. 2 is the electric current reconstructing blind area under two kinds of traditional single current sensor technologies, (a) DC bus sampling method, (b) two branch
With current sample method;
Fig. 3 is the mixing pulse modulation technology schematic diagram proposed in the present invention;
Fig. 4 is that pulse modulation technology is mixed when single current sensor is installed between switch transistor T 1 and T3 in six sectors
PWM modulation strategy;
Fig. 5 is that single current sensor is installed on three-phase current reconstruction result when between switch transistor T 1 and T3.
Specific embodiment
Further description of the technical solution of the present invention with reference to the accompanying drawing, and however, it is not limited to this, all to this
Inventive technique scheme is modified or replaced equivalently, and without departing from the range of technical solution of the present invention, should all be covered in this hair
In bright protection scope.
Illustrate that the present invention is based on the single current sensor motor controls for mixing pulse modulation technology in conjunction with Fig. 1 to Fig. 5, table 1
Method.
Fig. 1 show the installation site of two kinds of circuit topologies and single current sensor in the present invention, is mounted on inverter
One branch road.Single current sensor or sampling resistor are installed between switch transistor T 1 and T3 in topology, and single electric current passes in topology
Sensor is installed between switch transistor T 2 and T4.T1, T2, T3, T4, T5, T6 are six switches for constituting three-phase voltage source inverter
Pipe,V dc For DC bus-bar voltage, A, B, C are the three-phase windings of permanent magnet synchronous motor, and N is machine winding neutral point, ia, ib, ic
For three-phase windings electric current.
Fig. 2 is the electric current reconstructing blind area under two kinds of traditional single current sensor technologies, and (a) is DC bus sampling method, (b)
For two branches and current sample method.Six basic voltage vectors V1 ~ V6 constitute space vector of voltage hexagon, form six
Sector, voltage vector V0 and V7 are Zero voltage vector.In DC bus sampling method, it can adopt using single current sensor and singly
Sample resistance, but this method hexagon two sector boundary regions and low modulation than region there are apparent blind area, need multiple
Miscellaneous backoff algorithm could inhibit, and bring current harmonics.In two branches and current sample method, it is only capable of having using centre
The current sensor of through-hole is realized, penetrates two branch samplings in through-holes and electric current, this method are not suitable for sampling resistor,
And longer additional lead is needed, and electromagnetic interference is introduced, it is unfavorable to the performance of system.Method proposed by the present invention combines two
The advantages of person, can be realized using single current sensor or single sampling resistor, and eliminate sector borders blind area, and introducing volume is not required to
Outer backoff algorithm, current harmonics are smaller.
Fig. 3 is the mixing pulse modulation technology schematic diagram proposed in the present invention, in six sectors, the sector II and the sector V
PWM modulation strategy remain unchanged, need to change the modulation strategy of PWM in remaining four sector.Since there are PWM modulation strategies
Mixed processing, therefore the method be referred to as mixing pulse modulation technology.
In conjunction with the specific implementation principle of Fig. 4 and table 1 explanation single electric current reconfiguration technique in detail.
Fig. 4 is that pulse modulation technology is mixed when single current sensor is installed between switch transistor T 1 and T3 in six sectors
PWM modulation strategy.PWM waveform is seven classical section space vector pulse-width modulation waveforms in the sector II, V.In the sector I and
In the sector IV, do following processing to seven classical section space vector pulse-width modulation waveforms: A, the PWM waveform of C two-phase is taken
It is exchanged after inverse operation;In the sector III and the sector VI, following place is done to seven classical section space vector pulse-width modulation waveforms
Reason: A, the PWM waveform of B two-phase exchange after negating operation, finally obtains hybrid PWM modulation waveform shown in Fig. 4.Figure
In 4 Ts be PWM cycle, the switch state of Sa, Sb, Sc A, B, C three-phase, T0, T1 ... T7 be respectively eight voltage vector V0,
V1 ... duration of the V7 in a PWM cycle.As can be seen from Figure 4 in hybrid PWM modulation strategy, the sector II and V
There are Zero voltage vector V0 and V7 for sector, and Zero voltage vector is not present in remaining four sector.
Table 1 is current sample moment and the sampled result table of comparisons under two kinds of circuit topologies, is advised according to the sampling in table 1
Then, single current sensor or single sampling resistor are sampled at two voltage vectors effect moment of a PWM cycle, it can be with
Two out of phase current informations are obtained in any one sector, further according to the item of ia+ib+ic=0 in star-like connection motor
Part, can reconstruct three-phase windings electric current, be the principle that the present invention realizes phase current reconstruction above.
Current sample moment and the sampled result table of comparisons under 1 two kinds of circuit topologies of table
To verify the circuit topology and algorithm, simulating, verifying, obtained reconstruct three-phase current waveform are carried out to method of the invention
As shown in figure 5, wherein ia', ib', ic' are reconstruct three-phase current.As can be seen from Figure 5 three-phase current waveform sine is reconstructed
Preferably, with the current harmonics of very little, the validity of single current sensor motor control method of the present invention is demonstrated.
To sum up, the advantages of present invention incorporates single current sensor technologies before, solves the electric current weight of sector borders
Structure blind zone problem reduces reconstruct current harmonics, improves the runnability of motor, is that a kind of motor of inexpensive small size drives
Dynamic control strategy.
Claims (6)
1. a kind of based on the single current sensor motor control method for mixing pulse modulation technology, it is characterised in that the method packet
Include following steps:
Step 1: single current sensor or sampling resistor are installed on the basis of the topological structure of three-phase voltage source inverter
Between switch transistor T 1 and T3, single current sensor circuit topological structure is constructed;
Step 2: keeping the PWM modulation strategy of the sector II and the sector V in six sectors that basic voltage vectors V1 ~ V6 is formed
It is constant, change the PWM modulation strategy of the sector I, the sector III, the sector IV and the sector VI;
Step 3: two voltage vectors effect moment in a PWM cycle carries out single current sensor or single sampling resistor
Sampling, obtains two out of phase current informations, further according to ia+ib+ic=0 in star-like connection motor in any one sector
Condition reconstruct three-phase windings electric current.
2. it is according to claim 1 based on the single current sensor motor control method for mixing pulse modulation technology, it is special
It levies and is in the step 2, the PWM modulation strategy of the sector I and the sector IV are as follows: carry out the PWM waveform of A, C two-phase to negate fortune
It is exchanged after calculating;The PWM modulation strategy of the sector III and the sector VI are as follows: the PWM waveform of A, B two-phase negate mutual after operation
It changes.
3. it is according to claim 1 based on the single current sensor motor control method for mixing pulse modulation technology, it is special
Sign is in the step 3 that sampling rule is as follows:
The sector I: sampling instant V3 (010), sampled result ib;Sampling instant V6 (101), sampled result ic;
The sector II: sampling instant V7 (111), sampled result ib+ic;Sampling instant V2 (110) or V3 (010), sampled result ib;
The sector III: sampling instant V2 (110), sampled result ib;Sampling instant V5 (001), sampled result ic;
The sector IV: sampling instant V3 (010), sampled result ib;Sampling instant V6 (101), sampled result ic;
The sector V: sampling instant V7 (111), sampled result ib+ic;Sampling instant V5 (001) or V6 (101), sampled result ic;
The sector VI: sampling instant V2 (110), sampled result ib;Sampling instant V5 (001), sampled result ic.
4. a kind of based on the single current sensor motor control method for mixing pulse modulation technology, it is characterised in that the method packet
Include following steps:
Step 1: single current sensor or sampling resistor are installed on the basis of the topological structure of three-phase voltage source inverter
Between switch transistor T 2 and T4, single current sensor circuit topological structure is constructed;
Step 2: keeping the PWM modulation strategy of the sector II and the sector V in six sectors that basic voltage vectors V1 ~ V6 is formed
It is constant, change the PWM modulation strategy of the sector I, the sector III, the sector IV and the sector VI;
Step 3: two voltage vectors effect moment in a PWM cycle carries out single current sensor or single sampling resistor
Sampling, obtains two out of phase current informations, further according to ia+ib+ic=0 in star-like connection motor in any one sector
Condition reconstruct three-phase windings electric current.
5. it is according to claim 4 based on the single current sensor motor control method for mixing pulse modulation technology, it is special
It levies and is in the step 2, the PWM modulation strategy of the sector I and the sector IV are as follows: carry out the PWM waveform of A, C two-phase to negate fortune
It is exchanged after calculating;The PWM modulation strategy of the sector III and the sector VI are as follows: the PWM waveform of A, B two-phase negate mutual after operation
It changes.
6. it is according to claim 4 based on the single current sensor motor control method for mixing pulse modulation technology, it is special
Sign is in the step 3 that sampling rule is as follows:
The sector I: sampling instant V3 (010), sampled result ic;Sampling instant V6 (101), sampled result ib;
The sector II: sampling instant V0 (000), sampled result ib+ic;Sampling instant V2 (110) or V3 (010), sampled result ic;
The sector III: sampling instant V2 (110), sampled result ic;Sampling instant V5 (001), sampled result ib;
The sector IV: sampling instant V3 (010), sampled result ic;Sampling instant V6 (101), sampled result ib;
The sector V: sampling instant V7 (111), sampled result ib+ic;Sampling instant V5 (001) or V6 (101), sampled result ib;
The sector VI: sampling instant V2 (110), sampled result ic;Sampling instant V5 (001), sampled result ib.
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CN114114062B (en) * | 2021-11-05 | 2024-05-31 | 郑州轻工业大学 | Direct-current bus single-current sensor inverter fault detection device and method |
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