Jae-Il Baek scite author profile

Sinusoidal ripple-current (SRC) charging is a new charging technique that the sinusoidal current superposed with the direct current (DC) charges the battery at the frequency where the battery-ac-impedance reaches a minimum. However, in analyzing the effect on the SRC charging, the DC component of the SRC has not been considered until now. This paper presents a battery impedance analysis when the DC component is considered in the SRC charging. The real battery impedance is analyzed by using an electrical second-order RC battery model and overpotential voltage waveforms. The result shows that the real battery impedance is not minimized at the minimum-acimpedance frequency. Due to this, in comparison with the CC-CV charging, the charging time, charging amount and charging efficiency of the SRC-CV charging are not significantly different from those of the CC-CV charging. Rather, due to the ac component, the SRC-CV charging deteriorates the RMS current and maximum rising temperature by 22.5% and 18%, respectively. Also, this paper presents that the CC-CV charging using a slightly larger DC is more suitable for practical applications, since its current stress, charging time, and maximum rising temperature are improved by 2%, 9.7%, and 8.5%, respectively, in comparison with the SRC-CV charging.

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LEGO-PoL: A 48V-1.5V 300A Merged-Two-Stage Hybrid Converter for Ultra-High-Current Microprocessors

Baek

Wang

Elasser

et al. 2020

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Resonant Capacitor On/Off Control of Half-Bridge LLC Converter for High-Efficiency Server Power Supply

Lee

Kim

Baek

et al. 2016

IEEE Trans. Ind. Electron.

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LEGO-PoL: A 93.1% 54V-1.5V 300A Merged-Two-Stage Hybrid Converter with a Linear Extendable Group Operated Point-of-Load (LEGO-PoL) Architecture

Baek

Wang

Jiang

et al. 2019

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A Digital Predictive Peak Current Control for Power Factor Correction With Low-Input Current Distortion

Youn

Park

et al. 2016

IEEE Trans. Power Electron.

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Jae-Il Baek

Battery Impedance Analysis Considering DC Component in Sinusoidal Ripple-Current Charging

LEGO-PoL: A 48V-1.5V 300A Merged-Two-Stage Hybrid Converter for Ultra-High-Current Microprocessors

Resonant Capacitor On/Off Control of Half-Bridge LLC Converter for High-Efficiency Server Power Supply

LEGO-PoL: A 93.1% 54V-1.5V 300A Merged-Two-Stage Hybrid Converter with a Linear Extendable Group Operated Point-of-Load (LEGO-PoL) Architecture

A Digital Predictive Peak Current Control for Power Factor Correction With Low-Input Current Distortion

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