B. Axelrod scite author profile

In this study a new scheme of a step-up converter with very high voltage gain is proposed. The scheme is based on a natural combination of the switched-coupled-inductor boost converter and the diode-capacitor multiplier. The study proposes a special scheme of their mutual use for attaining very high voltage gain. An important advantage of the proposed circuit is the avoidance of the current spikes through the transistor and diodes because of the leakage inductance of the coupled inductors. The scheme provides soft commutation of the switch and the diodes. The study analyses the modes of operation and obtains the basic fundamental relations in steady state; an expression for voltage stress across the switch is derived. A new method for dynamic analysis is proposed. The corresponding analytical expressions and curves of the transient behaviour are also obtained. Modelling of the proposed structure and the experimental results are in full agreement regarding the expected efficiency and correctness of the theoretical analysis. A 100 W laboratory prototype was built and verified.

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Hybrid Switched-Capacitor – ĆUK/Zeta/Sepic Converters in Step-Up Mode

Axelrod

Berkovich

Ioinovici

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Transformerless Dc–dc Converters With a Very High Dc Line-to-Load Voltage Ratio

Axelrod

Berkovich

Ioinovici

2004

J CIRCUIT SYST COMP

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By splitting the output capacitor of a basic boost converter, and combining the resulting capacitors with the main switch in the form of a switched-capacitor circuit, a new step-up structure is realized. Without using a transformer, a high line-to-load DC voltage ratio is obtained. An output filter is added, as usual, in boost converters for getting a free-ripple output. The circuit compares favorably with a quadratic boost converter regarding the count of devices and efficiency, even if it presents a lower DC gain. A DC analysis of the novel converter is presented. Experimental and simulation results confirm the theoretical expectations. By increasing the number of capacitors in the switched-capacitor circuit, higher gains can be obtained. Versatility, high voltage gain and good transient response are the features of the proposed converter.

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B. Axelrod

Switched-Capacitor/Switched-Inductor Structures for Getting Transformerless Hybrid DC–DC PWM Converters

Switched-coupled inductor cell for DC–DC converters with very large conversion ratio

High step‐up DC–DC converter based on the switched‐coupled‐inductor boost converter and diode‐capacitor multiplier: steady state and dynamics

Hybrid Switched-Capacitor – ĆUK/Zeta/Sepic Converters in Step-Up Mode

Transformerless Dc–dc Converters With a Very High Dc Line-to-Load Voltage Ratio

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