A novel  step up converter which is proposed for a front end photovoltaic power system. Through a voltage multiplier module in which an asymmetrical interleaved step up converter usually high step up gain without which act as a function at an extreme duty ratio. The voltage multiplier module which is create of a conventional boost converter and coupled inductors. An extra conventional boost converter is combine into the first phase to achieve a considerably higher voltage conversion ratio. The two phase configuration not only decreases the current stress through each power switch but also force to do some thing the input current ripple, in which decreases the conduction losses of MOSFETs. The proposed step up converter functions as an active clamp circuit which moderate large voltage spikes across the power switches. So, the low-voltage rated MOSFETs which can be adopted for reduces of conduction losses and also cost. Efficiency improves because the energy which is stored in leakage inductances is energized to the output terminal. Finally, the prototype circuit which with a 40V input voltage, 380V output is operated to verify its performance. The highest efficiency of the step up converter is 96.8%.

Kuo-Ching Tseng, Chi-Chih Huang, and Wei-Tuan Shih “A High Step-Up Converter With Voltage Multiplier Module For a Photovoltaic Power System” IEEE Transactions On Power Electronics, Vol. 28. No. 6, June 2013. 3047.

Bhushan S. Chaudhari, M.M. Ansari, N.S. Mahajan, “A Review Of Step Up Converter With Voltage Multiplier For Photovoltaic Power System” , International Journal of Innovative Research in Advanced Engineering (IJIRAE), Issue 11, Volume 2 (November 2015), ISSN: 2349-2163.

Yen-Mo Chen, Alex Q. Huang, Xunwei Yu, “A High Step-Up Three-Port DC–DC Converter for Stand-Alone PV/Battery Power Systems”, IEEE Transactions On Power Electronics, Vol. 28, No. 11, 0885-8993, November 2013.

Vincent W. Ng, Seth R. Sanders, “A High-Efficiency Wide-Input-Voltage Range Switched Capacitor Point-of-Load DC–DC Converter”, IEEE Transactions On Power Electronics, Vol. 28, No. 9, 0885-8993, September 2013.

Chung-Chuan Hou, , Chih-Chung Shih, Po-Tai Cheng, Ahmet M. Hava, “Common-Mode Voltage Reduction Pulsewidth Modulation Techniques for Three-Phase Grid-Connected Converters”, IEEE Transactions On Power Electronics, Vol. 28, No. 4, 0885-8993, April 2013.

Bin Gu, Jason Dominic, Jih-Sheng Lai, Zheng Zhao, Chuang Liu, “High Boost Ratio Hybrid Transformer DC–DC Converter for Photovoltaic Module Applications”, IEEE Transactions On Power Electronics, Vol. 28, No. 4, 0885-8993, April 2013.

Shih-Jen Cheng, Yu-Kang Lo, Huang-Jen Chiu, Shu-Wei Kuo, “High-Efficiency Digital-Controlled Interleaved Power Converter for High-Power PEM Fuel-Cell Applications”, IEEE Transactions On Industrial Electronics, Vol. 60, No. 2, 0278-0046, February 2013.

Rong-Jong Wai, Kun-Huai Jheng, “High-Efficiency Single-Input Multiple-Output DC–DC Converter”, IEEE Transactions On Power Electronics, Vol. 28, No. 2, 0885-8993, February 2013.

Fellipe S. Garcia, Jose Antenor Pomilio, Giorgio Spiazzi, “Modeling and Control Design of the Interleaved Double Dual Boost Converter”, IEEE Transactions On Industrial Electronics, Vol. 60, No. 8, 0278-0046, August 2013.

Hongrae Kim, Babak Parkhideh, Tim D. Bongers, Heng Gao, “Reconfigurable Solar Converter: A Single-Stage Power Conversion PV-Battery System”, IEEE Transactions On Power Electronics, Vol. 28, No. 8, 0885-8993, August 2013.

Jia-Min Shen, Hurng-Liahng Jou, Jinn-Chang Wu, “Novel Transformerless Grid-Connected Power Converter With Negative Grounding for Photovoltaic Generation System”, IEEE Transactions On Power Electronics, Vol. 27, No. 4, 0885-8993, April 2012.

Wuhua Li, Jianguo Xiao, Yi Zhao, Xiangning He, “PWM Plus Phase Angle Shift (PPAS) Control Scheme for Combined Multiport DC/DC Converters”, IEEE Transactions On Power Electronics, Vol. 27, No. 3, 0885-8993, March 2012.

J.S.Anu Rahavi, T.Kanagapriya, Dr.R.Seyezhai, “Design and Analysis of Interleaved Boost Converter for Renewable Energy Source”, International Conference on Computing, Electronics and Electrical Technologies, IEEE, 978-1-4673-0210-4112, 2012 .

Juan Manuel Carrasco, Leopoldo Garcia Franquelo, Jan T. Bialasiewicz, Eduardo Galván, Ramón C. Portillo Guisado, , Ma. Ángeles Martín Prats, José Ignacio León, and Narciso Moreno-Alfonso, “Power-Electronic Systems for the Grid Integration of Renewable Energy Sources: A Survey”, IEEE Transactions On Industrial Electronics, Vol. 53, No. 4, 0278-0046, August 2006.

Y. Xiong, X. Cheng, Z. J. Shen, C. Mi, H. Wu, and V. Garg, “A Prognostic and Warning System for Power Electronic Modules in Electric, Hybrid, and Fuel Cell Vehicles”, IEEE Transactions, 1-4244-0365-0/06, 2006.