Uses and Comparison of Multi Input Converter Topology with Power Control

Authors

  • Chirag Arora Department of Electrical Engineering, Suresh Gyan Vihar University, Jaipur, Rajasthan, India
  • Atul Soni Department of Electrical Engineering, Suresh Gyan Vihar University, Jaipur.
  • Nagendra Kumar Swarnkar Department of Electrical Engineering, Suresh Gyan Vihar University, Jaipur.

Abstract

In this article a new topology is introduces which shows multiple energy sources input to a common load. But as we know about that all different type of energy sources have different voltage and current characteristic and in DC to DC converter a switching strategy is isolated but in this article we use constant
frequency. In 3-level converter there are two uni-directional input power port and a bi-directional port. It have four power switches which control with different duty ratios. In the boost converter topology we use two inductor strategy. The benefit of this technology is the higher voltage gain. In this paper we focused
on switching with fixed frequency.

How to cite this article:

Arora C, Soni A, Swarnkar NK. Uses and Comparison of Multi Input Converter Topology with Power Control.
J Adv Res Power Electro Power Sys 2018; 5(3&4): 21-23.

References

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Nejabatkhah F, Danyali S, Hosseini SH et al. Modeling and Control of a New Three-Input DC–DC Boost

Converter for Hybrid PV/FC/Battery Power System. IEEE Transactions on Power Electronics 2012; 27(5).

Arora C, Swarnkar NK, Sharma R. Design and Implementation of 220V DC/DC Boost Converter for a DC Load. International Journal of Emerging Technology

and Advanced Engineering 2017; 7(9). (ISSN 2250-2459,ISO 9001:2008 Certified Journal.

Matsuo H, Shigemizu T, Kurokawa F et al. Characteristics of the multiple-input DC-DC converter. in Proc. 24th Annu. IEEE Power Electronics Specialists Conf. 1993:

–120.

Published

2018-12-23