Rule-based Fuzzy and V/f Control for Induction Motor Speed Responses Using SVPWM Switching Technique

Ali, Jamal Abd

doi:10.15199/48.2015.03.32

Cited by 11 publications

(14 citation statements)

References 15 publications

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“…With regards to the FLC, these rules portray a nonchalant relationship between the two inputs which are speed error and its derivative and an output which is the change in control. [7] presented a rule-based FLC this was developed for speed control of a three-phase drive in a non-linear system. Speed control application was tested by conducting simulations under different operating conditions employing a constant v/f control scheme and SVPWM technique.…”

Section: Related Workmentioning

confidence: 99%

Comparative Analysis on Speed Control of a Three Phase Induction Motor Drive Using Proportional Integral Differential and Scalar Closed Loop Fuzzy Logic Approach

Anyim¹

2017

AJMSE

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Abstract:The principles of controlling an AC driven three phase induction motor employing constant volts/hertz (v/f) control method and the space vector pulse width modulation (SVPWM) technique are reviewed. The induction motor is one of the most common electrical motors in usage, owing to its unique characteristics. Its further application strength requires a robust, problem handling, fast and intelligent speed control system. As a result of this, developing an intelligent knowledge based fuzzy logic controller (FLC) became eminent, and on this basis, this paper is presented. By varying the motor speed with input reference speed, an error signal and a feedback loop is generated. The FLC then operates on the principles of mapping with corrective measure of an error signal generated and it is regulated by sets of programmable IF-THEN rules integrating the Mamdani fuzzy inference approach. The rules projected and formed are used to overcome drawbacks such as complexities and insensitivities to changes in model parameters associated to conventional controllers. The application of the constant v/f method was used to maintain constant voltage to frequency ratio, therefore, creating a constant magnetic field and a maximum torque throughout the operating range. This in turn generates a voltage and an angle command for the actualization of the SVPWM technique. This entire set up was repeated but now with a classical control method like the proportional integral differential (PID) controller. With a simulation time of 2s, results showed that with FLC, a better speed response can be achieved from a 5Hp 350V 50Hz AC motor attaining steady-state at 0.21s at no-load conditions. Simulation results showed a superior dynamic scheme of the FLC over the PI controller in terms of sensitivity to changes in model parameters. With a load torque of 10Nm applied at 1s, the FLC achieved stability at 1.2s still maintaining a constant speed of 157rads/s.

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Section: Related Workmentioning

confidence: 99%

Comparative Analysis on Speed Control of a Three Phase Induction Motor Drive Using Proportional Integral Differential and Scalar Closed Loop Fuzzy Logic Approach

Anyim¹

2017

AJMSE

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“…The d-q axis stator voltage and rotor voltage state equations of TIM in the stationary frame are shown in the equations below [1,8,24].…”

Section: Dynamic Model Of Timmentioning

confidence: 99%

“…The principle of V/f control is to keep the scalar voltage/frequency ratio (V/f) constant, and thus the magnetic flux in the maximum air gap is maintained. No explicit relationship exists between voltage and frequency; however, the flow of electromagnetic flux produces a relationship between voltage and frequency as follows [5,24]: (8) where ϕ m is the maximum air-gap flux, is the maximum phase voltage, is the frequency, and is the ratio of to . In Fig.…”

Section: Dynamic Model Of Timmentioning

confidence: 99%

“…The SVM technique only computes the time shares of the space vectors and does not specify the location in which these space vectors are applied [24]. …”

Section: Svpwm Switching Techniquementioning

confidence: 99%

“…The hexagon consists of the six non-zero vectors (i.e.,) and two zero vectors (i.e., . The PWM control has important factor known as the modulation index as shown below[24,27]:(10) where is the maximum value of the fundamental voltage and is the maximum value of the fundamental voltage at a six-step operation. Accordingly, where is the DC-link voltage.…”

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confidence: 99%

See 2 more Smart Citations

Fuzzy logic speed controller optimization approach for induction motor drive using backtracking search algorithm

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DTC-IM drive using adaptive neuro fuzzy inference strategy with multilevel inverter

Banu¹,

Jeyashanthi²,

Ansari

2021

J Ambient Intell Human Comput

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Rule-based Fuzzy and V/f Control for Induction Motor Speed Responses Using SVPWM Switching Technique

Cited by 11 publications

References 15 publications

Comparative Analysis on Speed Control of a Three Phase Induction Motor Drive Using Proportional Integral Differential and Scalar Closed Loop Fuzzy Logic Approach

Comparative Analysis on Speed Control of a Three Phase Induction Motor Drive Using Proportional Integral Differential and Scalar Closed Loop Fuzzy Logic Approach

Fuzzy logic speed controller optimization approach for induction motor drive using backtracking search algorithm

DTC-IM drive using adaptive neuro fuzzy inference strategy with multilevel inverter

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