Julio C. Rosas-Caro scite author profile

A DC -DC converter topology is proposed. The DC -DC multilevel boost converter (MBC) is a pulse-width modulation (PWM)-based DC -DC converter, which combines the boost converter and the switched capacitor function to provide different output voltages and a self-balanced voltage using only one driven switch, one inductor, 2N 2 1 diodes and 2N 2 1 capacitors for an Nx MBC. It is proposed to be used as DC link in applications where several controlled voltage levels are required with self-balancing and unidirectional current flow, such as photovoltaic (PV) or fuel cell generation systems with multilevel inverters; each device blocks only one voltage level, achieving high-voltage converters with low-voltage devices. The major advantages of this topology are: a continuous input current, a large conversion ratio without extreme duty cycle and without transformer, which allow high switching frequency. It can be built in a modular way and more levels can be added without modifying the main circuit. The proposed converter is simulated and prototyped; experimental results prove the proposition's principle.

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A Transformer-less High-Gain Boost Converter With Input Current Ripple Cancelation at a Selectable Duty Cycle

Rosas-Caro

Mancilla–David

Mayo-Maldonado

et al. 2013

IEEE Trans. Ind. Electron.

117

113

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A DC–DC converter with quadratic gain and input current ripple cancelation at a selectable duty cycle

García–Vite¹,

et al. 2017

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Quadratic buck–boost converter with positive output voltage and minimum ripple point design

Rosas-Caro

Valdez-Reséndiz

Mayo-Maldonado

et al. 2018

IET Power Electronics

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This study presents a novel topology of a buck-boost converter that features: (i) quadratic voltage gain; (ii) positive output voltage with respect to the input; (iii) continuous input current. Moreover, as the main contribution, (iv) it features a minimum ripple design, for which input current and output voltage ripples are simultaneously cancelled at the desired operating point. It is also shown that even though the duty cycle deviates from a nominal minimum ripple point, the converter exhibits a significantly low switching ripple percentage within a full operation range. The operation mechanism, steady-state equations and overall analysis are presented. Furthermore, simulations and experiments were performed to validate the theory.

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Quadratic buck-boost converter with positive output-voltage and continuous input-current

Rosas-Caro

Sánchez

Valdez-Reséndiz

et al. 2018

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