Development of variable voltage variable frequency drive system for induction motor speed control
Improving the Dynamic Response of Scalar Control of Induction Machine
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- 2.2.5 Hardware implementation of Simplified VVVF Inverter for Induction Motor Based on Space Vector Modulation (SVM)
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2.2.4 Improving the Dynamic Response of Scalar Control of Induction Machine
Drive using Phase Angle Control A novel structure for improving the Dynamic Response of Scalar Control of Induction Machine Drive is using Phase Angle Control presented in this paper [17]. The problem discussed in this paper is where the Scalar technique has poor transient response limits when applied in high performance motor drive application while fast toque response is required. The purpose of this paper is to validate the improvements in the dynamic performances when phase angle control operates. Method used in this paper is to implement the Proportional Integral (PI) controller, Lookup table, Pulse width modulation (PWM), and Phase angle controller in MATLAB/Simulink. The result shows that torque reaches instantaneously to new steady state value when phase is controlled. In addition, the phase angle controller has a two fast current loop that controls the stator voltage phase more quickly. This causes the improvement of dynamics performances of Scalar control which is the objective is successfully achieved. Figure 2.4 shows the block diagram closed loop control of the proposed method. 10 Figure 2.4: Block diagram showing the closed loop control of the proposed method [17] 2.2.5 Hardware implementation of Simplified VVVF Inverter for Induction Motor Based on Space Vector Modulation (SVM) Paper [18] proposed a simplified variable voltage variable frequency (VVVF) inverter based on Space Vector Modulation (SVM) to control speed of three phase induction motor. The problem discussed in this paper is where the Sinusoidal pulse width modulation (SPWM) technique has a high Total harmonic distortion (THD). The purpose is to reduce THD value using the SVM method. The method implementation of VVVF is based on SVM technique that consists of LOOKUP table, Clarke transformation, magnitude or angle calculation, and duty cycle calculation. The VVVF inverter using dsPIC33F5128M C202. By using VVVF topology sinusoidal waves are controlled by magnitude and frequency variable. The experimental result validates that the SVM method is effective and efficient to control the speed and reduce THD. This is because by using SVM, the speed of the rotor is started to change continuously because of the change in the duty cycle generated by the modulation of the SWM technique. Figure 2.5 shows the hardware design for VVVF based on the SVM method. 11 Figure 2.5: Block Hardware Design for VVVF Based on SVM Implementation [18] Download 2.76 Mb. Do'stlaringiz bilan baham: 
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