This paper presents L-Z source inverter used to control the speed of an induction motor using the V/f method. Capacitors using Z source inverters may result in large volume, expensive cost, inrush current and resonance at start up. So to overcome this problem in Z source inverters, new topology of L-Z source inverter is used which can suppress the resonance thoroughly by removing capacitor, thus improving the efficiency of power supply. This paper also discusses about the implementation of variable speed drive to maintain constant speed of three phase induction motor. The system is simulated in MATLAB SIMULINK as well as hardware is set up for the same. The results are presented to show the superiority of L-Z source inverter.
In this paper interleaved quadratic boost converter with Dickson voltage multiplier is proposed. Photovoltaic system is connected to high power load through the proposed converter. Structure of this high gain interleaved converter comprised of two stages: interleaved quadratic boost converter stage and Dickson voltage multiplier stage. Interleaved quadratic boost converter is a parallel combination of two quadratic boost converter. The interleaving increases frequency of converter that could be filtered using small capacitors, making input current smoother than the current of conventional quadratic boost converter. Thus, interleaved circuit minimizes current ripple present in input current, cascading of voltage multiplier cell increases the gain voltage ratio of converter making it suitable for high power, high voltage gain photo voltaic applications. Stress voltage of the switches and reverse recovery problems gets reduced, thereby reducing EMI problems. 300W prototype capable of increasing 24V input voltage to 400V output voltage is designed and results tested using MATLAB/Simulink software. Hardware prototype is also implemented to verify simulation results. Also, application of this converter in integrated energy storage is demonstrated.
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