Modeling and Simulink of Field-Oriented Control of Permanent Magnet Synchronous Motor
Implementation Plan:
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Scenario 1: Conventional SVPWM Switching Techniques:
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Step 1: Initially, we design the PMSM Motor Simulink Model (Motor Working Condition under 200 kW).
Step 2: Next we Implement Field-Oriented Control (FOC) algorithm by switching technique within the FOC control loop such as Conventional SVPWM Switching.
Step 3: Next we Simulate the PMSM Motor Simulink Model with Conventional SVPWM Switching Technique.
Step 4: Next, We Record and Store the Harmonic Loss, Efficiency, and Switching Loss Datas and Display it.
Step 5: Finally, the designed system is evaluated with the following plots,
5.1: Harmonic Loss
5.2: Efficiency
5.3: Switching Loss
Scenario 2: Carrier-based SVPWM Switching Techniques:
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Step 1: Initially, we design the PMSM Motor Simulink Model (Motor Working Condition under 200 kW).
Step 2: Next we Implement Field-Oriented Control (FOC) algorithm by switching technique within the FOC control loop such as Carrier-based SVPWM Switching.
Step 3: Next we Simulate the PMSM Motor Simulink Model with Carrier-based SVPWM Switching Technique.
Step 4: Next, We Record and Store the Harmonic Loss, Efficiency, and Switching Loss Datas and Display it.
Step 5: Finally, the designed system is evaluated with the following plots,
5.1: Harmonic Loss
5.2: Efficiency
5.3: Switching Loss
Scenario 3: Predictive SVPWM Switching Techniques:
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Step 1: Initially, we design the PMSM Motor Simulink Model (Motor Working Condition under 200 kW).
Step 2: Next we Implement Field-Oriented Control (FOC) algorithm by switching technique within the FOC control loop such as Predictive SVPWM Switching.
Step 3: Next we Simulate the PMSM Motor Simulink Model with Predictive SVPWM Switching Technique.
Step 4: Next, We Record and Store the Harmonic Loss, Efficiency, and Switching Loss Datas and Display it on Console.
Step 5: Finally, the designed system is evaluated with the following plots,
5.1: Harmonic Loss
5.2: Efficiency
5.3: Switching Loss
Scenario 4: Third Harmonic SVPWM Switching Techniques:
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Step 1: Initially, we design the PMSM Motor Simulink Model (Motor Working Condition under 200 kW).
Step 2: Next we Implement Field-Oriented Control (FOC) algorithm by switching technique within the FOC control loop such as Third Harmonic SVPWM Switching.
Step 3: Next we Simulate the PMSM Motor Simulink Model with Third Harmonic SVPWM Switching Technique.
Step 4: Next, We Record and Store the Harmonic Loss, Efficiency, and Switching Loss Datas and Display it.
Step 5: Finally, the designed system is evaluated with the following plots,
5.1: Harmonic Loss
5.2: Efficiency
5.3: Switching Loss
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Software Requirements:
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1. Matlab-R2020a/Simulink or Above Version
2. Windows-10 (64-bit)
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Note:-
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If the above plan does not satisfy your requirement, please provide the processing details, like the above step-by-step.
