Control vector: Vector control — Wikipedia – Vector control (motor) — Wikipedia

Vector control

By Dmitry Levkin

Vector control is a control method of brushless AC electric motors, which allows independently and practically inertialess adjusting the rotation speed and torque on the motor shaft.

The main idea of ​​vector control is to control not only the magnitude and frequency of the supply voltage but also the phase. In other words, the magnitude and angle of the space vector are controlled [1]. Vector control in comparison with the scalar has a higher performance. Vector control eliminates almost all the disadvantages of scalar control.

    Advantages of vector control:
  • high accuracy of speed control;
  • soft start and smooth motor rotation in full speed range;
  • fast response to a load change: when there is a load change, there is practically no change in the speed;
  • increased control range and regulation accuracy;
  • losses for heating and magnetization are reduced, the efficiency of the electric motor increases.
    The disadvantages of vector control include:
  • the need to set motor parameters;
  • large speed fluctuations at constant load;
  • large computational complexity.

General functional diagram of vector control

A general block diagram of a high-performance speed control system for a brushless AC motor is shown in the figure above. The circuit is based on the flux and torque control loops, together with the estimator unit, which can be implemented in various ways. At the same time, the external speed control loop is largely unified and generates control signals for torque M* and flux Ψ* (through the flux program unit) regulators. The motor speed can be measured by a mechanical sensor (speed/position) or obtained by means of a program estimator that allows you to implement sensorless control.

Classification of vector control methods

Since the seventies of the twentieth century, many ways to control the torque have been proposed. Not all of them are widely used in the industry. Therefore, in this article only the most popular control methods are considered. The discussed techniques of torque control are presented for control systems of asynchronous and permanent magnet synchronous motors with sinusoidal back EMF.

Existing torque control methods can be classified in various ways.

    Most often, the methods of torque control are divided into the following groups:
  • linear (PI, PID) regulators;
  • nonlinear (hysteresis) regulators.
Control method Speed ​​control range Speed ​​error3, % Torque rise time, ms Starting torque Cost
Description
Scalar 1:101 5-10 Not available Low Very low It has a slow response when load changing and a small range of speed control, but it is easy to implement.
Vector Linear Field oriented control >1:2002 0 High High Allows you to smoothly and quickly control the basic parameters of the motor — torque, and speed. This method requires information about the position of the rotor.
DTC with voltage SVM >1:200
2
0 High High A hybrid method designed to combine the benefits of the FOC and DTC.
Nonlinear Switching Table based Direct Torque Control >1:2002 0 High High It has a high dynamics and a simple scheme, but a characteristic feature of its work is high current and torque ripples.
Direct Self Control >1:2002 0 High High It has an inverter switching frequency lower than other methods and is designed to reduce losses when controlling high power motors.
Characteristics of the main control methods of AC motors [2]

Note:

  1. Open loop
  2. Closed loop
  3. In steady state

Among vector control, the most widely used are field oriented control and direct torque control.

Linear torque controllers work in conjunction with voltage pulse width modulator (PWM). The regulators determine the required stator voltage vector, averaged over the sampling period. The voltage vector is finally synthesized by the PWM method, in most cases, the space vector modulation (SVM) is used. Unlike nonlinear torque control schemes, where signals are processed on instantaneous values, in linear torque control schemes, the linear controller (PI) works with values ​​averaged over the sampling period. Therefore, the sampling rate can be reduced from 40 kHz for nonlinear torque controllers to 2–5 kHz in linear torque control schemes.

Field oriented control

Field oriented control (FOC) is a control method that controls an AC brushless motor (PMSM, SCIM) as a DC machine with independent excitation, implying that the flux and torque can be controlled separately.

The field oriented control proposed in 1970 by Blaschke [3] and Hasse [4] is based on an analogy with a mechanically commutated separately excited brushed DC motor. In this motor, the excitation and armature windings are separated, the flux is controlled by the inductor excitation current, and the torque is independently controlled by the armature current regulation. Thus, the currents of the flux and the torque are electrically and magnetically separated.

General functional diagram of sensorless field oriented control1

Note:

  1. The scheme is shown in a simplified form.

On the other hand, brushless AC motors (SCIM, PMSM) most often have a three-phase stator winding, and the stator current vector Is is used to control both the flux and torque. Thus, the excitation current and armature current are combined into a stator current vector and cannot be controlled separately. The decoupling can be achieved mathematically by decomposing the instantaneous value of the stator current vector Is into two components: the direct component of the stator current Isd (creating the field) and the quadrature component of the stator current Isq (creating torque) in the rotating dq coordinate system oriented to the rotor flux (R -FOC — rotor flux-oriented control) — figure above. Thus, the control of the brushless AC motor becomes identical to the control of the separately excited DC motor and can be implemented using a PWM inverter with a linear PI regulator and voltage space vector modulation.

In the field oriented control, the torque and flux are controlled indirectly by controlling the components of the stator current vector.

The instantaneous values ​​of the stator currents are converted to dq rotating coordinate system by using the Park transform αβ/dq, which also requires information about the position of the rotor. The flux is controlled through the direct component of the current Isd, while the torque is controlled through the quadrature component of the current Isq. The inverse Park transform (dq/αβ), the mathematical module of coordinate transformation, allows you to calculate the reference components of the voltage vector V* и V*.

Waveforms at different stages of conversion

To determine the rotor position, either the rotor position sensor (RPS) installed in the electric motor or the sensorless control algorithm implemented in the control system is used, which calculates the rotor position information in real time based on the data available in the control system.

Direct Torque Control with Voltage Space Vector Modulation

The block diagram of direct torque control with space vector modulation (DTC-SVM) with closed loop torque and flux regulation operating in a Cartesian coordinate system oriented along the stator flux is shown in the figure below. The outputs of PI torque and flux controllers are interpreted as the reference components of the stator voltage Vψ* and VM* in the dq coordinate system oriented by the stator flux (stator flux-oriented control, S-FOC). These commands (DC voltages) are then converted into a stationary coordinate system αβ, after which the control values V

* and V* arrive at a module of space vector modulation (SVM).

Functional diagram of direct torque control with voltage space vector modulation

Note that this scheme can be considered as a simplified stator flux oriented control (S-FOC) without a current control loop or as a classical switching table direct torque control scheme (ST DTC) in which the switching table is replaced by a modulator (SVM), and the hysteresis torque and flux controllers are replaced by linear PI regulators.

In the scheme of direct torque control with space vector modulation (DTC-SVM), the torque and the flux are directly controlled in a closed loop, so an accurate estimate of the flux and torque is needed. In the scheme of direct torque control with space vector modulation (DTC-SVM), the torque and flux are directly controlled in a closed loop, so an accurate estimation of the flux and torque is needed. Unlike the classical hysteresis direct torque control algorithm, DTC-SVM operates at a constant switching frequency. This greatly improves the characteristics of the control system (drive): reduces the torque and flux ripples, allows you to confidently start the motor and operate at low speed. But this reduces the dynamic characteristics of the drive.

The presented group of torque regulators departs from the idea of ​​coordinate transformation and control, by analogy with a brushed DC motor, which is the basis for field oriented control. Nonlinear regulators propose to replace the decoupling control with the bang-bang (hysteresis) control, which corresponds to the on/off work ideology of the semiconductor devices of the inverter.

In comparison with field oriented control, direct torque control schemes have the following characteristics:

    Advantages:
  • simple control scheme;
  • there is no current loops and direct current regulation;
  • coordinate transformation is not required;
  • there is no separate voltage modulation;
  • position sensor is not required;
  • good dynamics.
    Disadvantages:
  • an accurate estimation of the stator magnetic flux vector and torque is required;
  • the strong torque and current ripples due to non-linear (hysteresis) controller and variable frequency switching;
  • noise with a wide range due to a variable switching frequency.

Direct torque control

For the first time, a switching table based direct torque control (ST-DTC) method was described by Takahashi and Noguchi in an IEEJ article submitted in September 1984 and later in an IEEE article published in September 1986 [5]. The scheme of the classical method of direct torque control (DTC) is much simpler than that of the field oriented control method (FOC), since it does not require the transformation of coordinate systems and measurement of the rotor position. The diagram of the direct torque control method (figure below) contains the torque and stator flux linkage estimator, torque and flux hysteresis comparators, switching table and inverter.

The principle of the method of direct torque control is the choice of the voltage vector for simultaneous control of both the torque and the stator flux linkage. The measured stator currents and inverter voltage are used to estimate the flux linkage and torque. Estimated stator flux linkage psi est and torque M est values are compared with the control signals for stator flux linkage ψs* and motor torque M*, respectively, by means of a hysteresis comparator. The required motor control voltage vector is selected from the switching table based on the digitized flux dΨ and torque dM errors generated by hysteresis comparators, as well as from the position sector Nthetas of the stator flux vector derived from the angular position theta. Thus, the pulses SA, SB, and SC to control the inverter power switches are generated by selecting a vector from the table.

Classic direct torque control scheme with a speed sensor

    Characteristic features of the ST-DTC scheme:
  • sinusoidal waveforms of stator flux and currents with a harmonic content determined by the hysteresis tolerance bands of the flux and torque regulators;
  • excellent torque dynamics;
  • the hysteresis bands of the flux and torque determine the switching frequency of the inverter, which varies with changing synchronous speed and load [2].

There are many modifications of the classic ST-DTC scheme aimed at improving start-up, overload conditions, working at very low speeds, reducing torque ripple, working at the variable switching frequency and reducing the noise level.

The disadvantage of the classical method of direct torque control is the presence of high ripples of currents and torque in the steady state. The problem is eliminated by increasing the operating frequency of the inverter above 40 kHz, which increases the total cost of the control system [1].

Direct self control

An application for a patent of the method of direct self control was filed by Depenbrock in October 1984 [6]. The block diagram of the direct self control is shown below.

Based on the stator flux linkage commands ψs* and the actual phase components ψsA, ψsB and ψsC, the flux linkage comparators generate digital signals dA, dB and dC, which correspond to active voltage states (V1 – V6). The hysteresis torque controller has the output signal dM, which determines the zero states. Thus, the stator flux linkage regulator sets the time interval of active voltage states, which move the stator flux vector along a given trajectory, and the torque controller determines the time interval of zero voltage states that maintain the motor torque in the defined-by-hysteresis tolerance band.

Direct self control scheme

    Characteristic features of the direct self control scheme are:
  • non-sinusoidal waveforms of stator flux and current;;
  • the stator flux vector moves along a hexagon path;
  • there is no supply voltage reserve, and the inverter capabilities are fully utilized;
  • the inverter switching frequency is lower than that of switching table based direct torque control;
  • excellent dynamics in constant and weakening field regions.

Note, that the operation of the direct self control method can be reproduced using the ST-DTC scheme with flux hysteresis of 14% wide.

    References
  • Cristian Busca. Open loop low speed control for PMSM in high dynamic application.- Aalborg, Denmark.: Aalborg universitet, 2010
  • Marian P. Kazmierkowski, Leopoldo G. Franquelo, Jose Rodriguez, Marcelo A. Perez, Jose I. Leon. High-Performance Motor Drives: IEEE Industrial Electronics, vol. 5, no. 3, pp. 6-26, Sep.2011
  • F. Blaschke. The principle of field-orientation as applied to the transvector closed loop control system for rotating-field machines: Siemens Rev., vol. 34, no. 1, pp. 217–220, 1972.
  • K. Hasse. Drehzahlgelverfahren fur schnelle Umkehrantriebe mit strom-richtergespeisten Asynchron-Kurzchlusslaufermotoren: Reglungstechnik, vol. 20, no. 2, pp. 60–66, 1972.
  • I. Takahashi, and T. Noguchi. A new quick response and high-efficiency control strategy of an induction motor: IEEE Trans. Ind. Applicat., vol. IA-22, no. 5, pp. 820–827, Sept./Oct. 1986.
  • M. Depenbrock. Direct self control of the flux and rotary moment of a rotary-field machine: US4678248, 1987.

Also read

  • Electric motor

    Classification of electric motors, their advantages, and disadvantages. The construction, principle of operation, diagrams and parameters of the electric motor. Applications and list of manufacturers

  • Wound-rotor synchronous motor

    Construction, the principle of operation, synchronous speed, direct-on-line starting and going out of synchronism of wound-rotor synchronous motor

  • Three-phase induction motor

    Construction and working principle of a three-phase AC motor. Wiring diagrams and control methods for asynchronous motor

  • Hysteresis-reluctance motor

    The construction, principle of operation, advantages, and disadvantages of the hysteresis-reluctance synchronous motor

vector control — с английского на русский

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  • vector control — Перевод на русский — примеры английский

    Посмотреть также: disease vector control malaria vector control

    На основании Вашего запроса эти примеры могут содержать грубую лексику.

    На основании Вашего запроса эти примеры могут содержать разговорную лексику.

    These provisions acknowledge that DDT remains an important and necessary substance for vector control in the developing countries.

    He believed that research activities in the field should be increased, in order to promote and develop alternative vector control methods and strategies and achieve the elimination of DDT.

    По его мнению, следует расширить научно-исследовательские мероприятия на этом направлении с целью распространения и разработки альтернативных методов и стратегий борьбы с переносчиками инфекций и обеспечения ликвидации ДДТ.

    Malaria partners globally are working with endemic countries to facilitate the disbursement of existing resources for vector control interventions and to mobilize additional resources.

    Партнеры по борьбе с малярией во всем мире взаимодействуют со странами, эндемичными по малярии, с тем чтобы способствовать перечислению имеющихся средств на проведение мероприятий по борьбе с переносчиками заболевания и привлечению дополнительных ресурсов.

    Indoor residual spraying is a powerful vector control tool for reducing and interrupting malaria transmission.

    Resistance to insecticides, especially pyrethroids, poses an urgent and growing threat to the sustainability of current methods of vector control.

    Residual spraying of insecticides for vector control was carried out among specific populations;

    Insecticide resistance has grave implications for vector control.

    This is especially true for environmental management approaches and non-chemical based vector control interventions.

    Это особенно справедливо для подходов, основанных на управлении природопользованием и для не связанных с применением химических веществ мероприятий по борьбе с переносчиками.

    There are currently a limited number of effective and affordable alternatives to DDT for vector control.

    To mitigate these concerns there is a need to sustain investment in research on new tools and strategies for vector control.

    Для снижения остроты этих проблем необходимо поддерживать инвестирование в научные исследования, касающиеся новых инструментов и стратегий для борьбы с переносчиками болезней.

    A range of potential substitute chemicals and new tools for vector control are under development.

    Some national malaria control programs do not consider DDT for vector control in the later stages of the elimination continuum.

    Некоторые национальные программы по борьбе с малярией не рассматривают применение ДДТ для борьбы с переносчиками болезней на поздних стадиях процесса ликвидации.

    Is there a national vector control policy?

    inadequacy of routine reporting procedures of vector control programmes

    Efforts are continuing to extend the use of environmental management measures for vector control within health programme and in development projects.

    Продолжаются усилия по расширению использования мер экологического контроля для борьбы с векторными заболеваниями в рамках программы здравоохранения и проектов в области развития.

    PEEM also participated in a WHO study group on vector control for malaria and other mosquito-borne diseases in November 1993.

    В ноябре 1993 года ПЕЕМ также участвовала в работе исследовательской группы ВОЗ по борьбе с возбудителями малярии и других заболеваний, которые переносятся комарами.

    Ongoing decentralization and the attendant administrative reforms have created significant challenges to effective implementation of vector control programs.

    В процессе децентрализации и проведения сопутствующих административных реформ возникают серьезные барьеры для эффективного осуществления программ борьбы с переносчиками болезней.

    Long lasting insecticide treatment technologies are also being used to produce specific insecticide treated materials for personal protection or vector control.

    Технологии долговечной обработки инсектицидами используются также для производства отдельных обработанных инсектицидами материалов в качестве средств индивидуальной защиты или борьбы с переносчиками болезней.

    Seventh, it routinely conducts tests of insecticide spraying to determine the susceptibility or resistance of the vector to insecticides selected for vector control.

    В-седьмых, правительство в плановом порядке при распылении инсектицида проводит исследования для определения чувствительности или устойчивости переносчиков инфекции к инсектицидам, избранным для борьбы с ними.

    There is some coordination between national and international institutions in activities relating to promotion, prevention, surveillance and vector control.

    Мероприятия по обучению, профилактике, наблюдению и векторному контролю проводятся в координации с целым рядом национальных и международных организаций.

    vector control — с русского на английский

  • Vector control — For vector control of induction motors, see Motor controller Vector control is any method to limit or eradicate the mammals, birds or arthropods, insects which transmit disease pathogens. The most frequent type of vector control is mosquito… …   Wikipedia

  • Vector control (motor) — Vector control (also called Field Oriented Control, FOC) is one method used in variable frequency drives to control the torque (and thus finally the speed) of three phase AC electric motors by controlling the current fed to the machine.MethodThe… …   Wikipedia

  • Innovative Vector Control Consortium — The Innovative Vector Control Consortium is a consortium of five leading academic institutions. The IVCC s mission statement is to improve health by enabling partnerships for the accelerated development and delivery of new products and tools that …   Wikipedia

  • thrust vector control/thrust vectoring — A method of controlling vehicle trajectory by rotating the thrust line to improve maneuverability and for V/STOL (vertical/short takeoff and landing) operation. Thrust vectoring is also used for noise reduction in gas turbine engines …   Aviation dictionary

  • Vector (biology) — In epidemiology, a vector is an organism that does not cause disease itself but which transmits infection by conveying pathogens from one host to another. A classic example is the anopheles mosquito which acts as a vector for the disease malaria… …   Wikipedia

  • Vector Prime (Transformers) — Vector Prime is a fictional character from the toyline, animated series and comics.Transformers: CybertronTransformers character name = Vector Prime caption = Knight Warrior of Cybertron and Defender of Spacetime affiliation =Autobot subgroup =… …   Wikipedia

  • Vector Prime — es un personaje ficticio de los Transformers: Cybertron toyline, serie de dibujos animados y cómics. En la ficción es un antiguo Autobot, uno de los primero en ser creado, con poderes sobre el tiempo y el espacio, y se convierte en una nave… …   Wikipedia Español

  • Vector Foiltec — specialize in using ETFE as an architectural cladding technology.Since inception in 1982 as two companies Vector Special Projects in London and Foiltec in Bremen, Germany the company has grown globally to encompass more than 10 offices around the …   Wikipedia

  • Vector (journal) — Vector is the critical journal of the British Science Fiction Association (BSFA). It is free to members of the BSFA and can be purchased at genre conventions and BSFA events. The first issue was published in 1958 under the founding editorship of… …   Wikipedia

  • Control chart — One of the Seven Basic Tools of Quality First described by Walter A. Shewhart …   Wikipedia

  • Vector graphics — This article is about computer illustration. For other uses, see Vector graphics (disambiguation). Example showing effect of vector graphics versus raster graphics. The original vector based illustration is at the left. The upper right image… …   Wikipedia

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