References

Anand, R., I. Gnanambal and N. Poornema, 2014. Implementation of fuzzy logic converter for buck-boost converter combining KY and synchronus buck converter for battery operated portable devices. J. Theor. Appl. Inf. Technol., 67: 151-158.
Direct Link  |  

Aziz1, A.S. and R.N. Ali, 2016. Design of a non-ideal buck converter. Intl. Res. J. Eng. Technol., 3: 174-179.

Bukar, A.L., D.B.M. Said, B. Modu, A.K. Aliyu and A. Musa et al., 2015. Design of a non-idea buck-boost converter. Intl. J. Sci. Eng. Res., 6: 392-397.

Garg, M.M., M.K. Pathak and Y.V. Hote, 2016. Effect of non-idealities on the design and performance of a DC-DC buck converter. J. Power Electron., 16: 832-839.
CrossRef  |  

Hu, Y., K. Li, Z. Yin and A. Ioinovici, 2015. Switched-inductor-based non-isolated large conversion ratio, low components count DC-DC regulators. Proceedings of the IEEE Conference on Energy Conversion Congress and Exposition (ECCE), September 20-24, 2015, IEEE, Montreal, Quebec, ISBN:978-1-4673-7151-3, pp: 1398-1405.

Kamtip, S. and K. Bhumkittipich, 2011. Design and analysis of interleaved boost converter for renewable energy applications. Proceedings of the 9th Symposium on Eco-Energy, Materials Science and Engineering, May 25-28, 2011, Rajamangala University of Technology, Chiang Rai, Thailand, pp: 116-122.

Rensburg, J.F.J.V., M.J. Case and D.V. Nicolae, 2008. Double-boost DC to DC converter. Proceedings of the 34th Annual Conference on IEEE Industrial Electronics IECON, November 10-13, 2008, IEEE, Orlando, Florida, ISBN:978-1-4244-1767-4, pp: 707-711.