90 International Journal for Modern Trends in Science and Technology
Design of Triple Switch Double Inductor Based
High Voltage Gain DC-DC Boost Converter
| Dr. A Rubymeena
1PG Scholar, Department of EEE, Government College of Engineering, Salem, Tamil Nadu, India.
2Associate Professor, Department of EEE, Government College of Engineering, Salem, Tamil Nadu, India.
To Cite this Article
G Bharani and Dr. A Rubymeena, “Design of Triple Switch Double Inductor Based High Voltage Gain DC-DC Boost
Converter”, International Journal for Modern Trends in Science and Technology, Vol. 06, Issue 02, February 2020,
Received on 16-January-2020, Revised on 04-February-2020, Accepted on 19-February-2020, Published on 23-February-2020.
DC microgrids are well known due to the combination of sustainable power sources, for example, sun
based photovoltaic and power device. Inferable from the low yield voltage of these DC power generators,
high proficient high addition DC-DC converters are deprived to associate the DC microgrid. In this paper, a
non-confined high addition dc–dc converter is proposed without utilizing voltage multiplier cell (VMC). The
proposed topology uses two non-confined inductors that are associated in series/parallel during
liberating/charging mode. The activity of switches with two distinctive duty ratio is the principle key factor
of the converter to accomplish high voltage gain without using outrageous duty ratio. Likewise, a 100W,
20/200V model circuit of the high voltage gain DC-DC converter is simulated using MATLAB/SIMULINK
KEYWORDS: Triple Switch Double Inductor, DC-DC converter, Voltage gain
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DC microgrid innovation is advancing because of
the infiltration of conveyed generating sources. DC
power generators produce low yield voltage and
thus require high effect