New Converter Circuitry for High Voltage Applications

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Jul 22, 2010 - The paper is organized in the following way; section II presents the proposed ... Fig. 3 and Fig. 4. When the switch on, the two inductors are connected to the voltage source through DS1 and Ds3. If C3's voltage is smaller than ...
New Converter Circuitry for High Voltage Applications Using Switched Inductor Multilevel Converter Mostafa Mousa, IEEE Student Member, Mahrous E. Ahmed, IEEE Member, and Mohamed Orabi, IEEE Senior Member, APEARC, Aswan Faculty of Engineering, South Valley University, Egypt [email protected]

Abstract- This paper presents an analysis and design of a high voltage gain DC-DC converter. This converter is a single stage DC-DC multilevel boost converter

topology

with very large

voltage gain conversion ratio. It is called a Switched Inductor Multilevel Boost Converter (SIMLBC). It converts a low voltage

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Power Conditioning System

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level to high voltage level to be used in any application that requires high voltages. The capacitors in the output circuit provide a different output dc levels suitable inverter

applications.

The

main

problem

of

for multilevel any

multilevel

converter is the efficiency because there are a lot of components that consume power. So this work investigates practical circuit

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Gain vs D with variable ESR

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The Gain vs D at variable ESR

TABLE 2: COMPARISON BETWEEN CONVENTIONAL BOOST

TABLE 3: COMPARISON BETWEEN CONVENTIONAL BOOST

CONVERTER, Two LEVEL SIMLBC, AND THREE LEVEL SIMLBC FOR

CONVERTER, Two LEVEL SIMLBC, AND THREE LEVEL SIMLBC FOR

GAIN VERSUS DUTY CYCLE WITH VARIABLE SWITCH ON RESISTANCE.

GAIN VERSUS DUTY CYCLE WITH VARIABLE INDUCTOR OCR.

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