Performance Analysis of Z-source Inverter Fed Induction Motor Drive

THIS MODEL IS EQUIPPED WITH CONSTANT BOOST CONTROL USING THIRD HARMONIC INJECTION.
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Updated 1 Apr 2013

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This paper presents performance analysis and simulation of maximum constant boost-control with third harmonic injection methods for the Z-source inverter, which can obtain maximum voltage boost for a fixed modulation index. The Z-source inverter is a recently invented a new power conversion concept mainly developed for fuel cell vehicular applications. The Z-source inverter is very advantageous over traditional inverters and it can be employed in all ac and dc power conversion applications. All traditional PWM methods can be used to control Z-source inverter. Maximum constant boost control methods eliminates the low-frequency ripples in the inductor current and capacitor voltage by maintaining the shoot-through duty cycle constant, and minimize the voltage stresses of switching devices at the same time. The Maximum boost control method is suitable for relatively high output frequency only, but in the maximum constant boost control method the Z-source network design is independent of the output frequency and determined only by the switching frequency. In this paper Z-source inverter parameters such as boost factor, output dc link voltage, capacitor voltage, output ac voLtage.

Cite As

Amit Tiwari (2024). Performance Analysis of Z-source Inverter Fed Induction Motor Drive (https://www.mathworks.com/matlabcentral/fileexchange/41049-performance-analysis-of-z-source-inverter-fed-induction-motor-drive), MATLAB Central File Exchange. Retrieved .

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1.0.0.0