Journal of Electrical Engineering, Electronics, Control and Computer Science

This paper presents a comparative study of SPWM (sine pulse width modulation) and SDCM (sine duty-cycle modulation) power inverters. A unified virtual workbench is built in Multisim framework, and used for fast simulation and rapid monitoring of results. From upstream to downstream, this workbench consists of: optional SDCM and SPWM divers; a single phase bridge power inverter, a 50 Hz filter and a load. The retained comparative criteria, rely on building hardware components, operating properties and the performance of the AC voltage delivered to the load in each case. As findings emerging from well tested prototyping systems, the SDCM-based inverter offers in most cases, smarter operating properties and better overall performance, compared to those provided by the  SPWM-based inverter. Hence, the extended versions of SDCM for three-phase inverters, might become an emerging research area of control systems in power electronics.

REFERENCES

M. A.Boostand and P. D. Ziogas, “State-of-the art carrier PWM techniques : A critical review evaluation†IEEE transactions on industry applications, volume 24, Issue 2, ,pp. 271-280, 1988

Sandip Kumar, Harish Kumar; Kamal Singh and Amit Patel. “A survey and study of many types of PWM techniques used in induction motors drive.†International Journal of engineering Sciences & advanced technology., volume 4, Issue 1, pp. 18-22, 2014

Aparna Sharma, Abhijeet Singh and P. Yad, “A review of PWM Techniques for Inverters in Induction Motor Drives“,. International Journal of Electrical, Electronics and Computer Engineering 4(1), 136-142 (2015).

Shweta Singh, A.N. Tiwari, “Simulation and Comparison of SPWM and SVPWM Control for Two Level Inverter“, Conference paper, Madan Mohan Malaviya University of Technology, Gorakhpur (U.P.) India, March 2017

M. A. Latif, M. J. Alam, et al. “Microcontroller based PWM Inverter for Speed Control of a Three Phase Induction motor“, Internationa l Journal of Engineering and Technology, Vol 5 No2, pp. 624-630, Apr-May 2013.

TXRobotic, “Tableu comparatif des cartes Arduino“., www.txrobotic.com

B. Moffo Lonla, J. Mbihi, and L. Nneme Nneme, “Low cost and high quality duty cycle modulation scheme and apllications.†International Journal of Electrical, Computer, Energetic, Electronic and Communication Engineering. © WASET (World Academy of Science, Engineering and Technology). volume 08, No 3, pp. 472-477, 2014

J. Mbihi L. Nneme Nneme, “A novel control scheme for buck power converters using duty cycle modulation.†International Journal of power electronics, © Inderscience Enterprises Ltd, volume 5, No 3/4, pp. 185-199, 2013

L. N. Nneme, B. Moffo, G. Sonfack, J. Mbihi. “Review of a Multipurpose Duty-Cycle Modulation Technology in Electrical and Electronics Engineering“. Journal of Electrical Engineering, Electronics, Control and Computer Science – JEEECCS, Volume 4, Issue 12, pages 9-18, 2018.

J. Mbihi, B. Ndjali and M. Mbouenda, “Modelling and simulation of a class of duty-cycle modulators for industrial instrumentation.†Iranian Journal of electrical and computer engineering, volume 4, no 2, pp. 121-128, 2005

J. Mbihi, “Dyanmic modelling and virtual simulation of digital duty cycle modulation control drivesâ€. International Journal of Electrical, Computer, Energetic, Electronic and Communication Engineering. © WASET (World Academy of Science, Engineering and Technology). volume 11, No 4, pp. 472-477, 2017.