Abstract
The optimal state of charge (SoC) balancing control for series-connected lithium-ion battery cells is presented in this paper. A modified SoC balancing circuit for two adjacent cells, based on the principle of a bidirectional Cuk converter, is proposed. The optimal SoC balancing problem is established to minimize the SoC differences of cells and the energy loss subject to constraints of the normal SoC operating range, the balancing current, and current of cells. This optimization problem is solved using the sequential quadratic programming algorithm to determine the optimal duties of PWM signals applied to the SoC balancing circuits. An algorithm for the selection of the initial points for the optimal problem-solving process is proposed. It is applied in cases where the cost function has no decreasing part. Experimental tests are conducted for seven series-connected Samsung cells. The optimal SoC balancing control and SoC estimation algorithms are coded in MATLAB and embedded in LabVIEW to control the SoC balancing in real time. The test results show that the differences between the SoCs of cells converges to the desired range using the proposed optimal SoC balancing control strategy.
Highlights
Accepted: 14 May 2021Recently, batteries and fuel cells have been widely used in various fields, including the power industry, transportation, and portable devices, as a solution to energy shortages and environmental pollution problems [1,2,3]
Lithium-ion batteries (LIBs) were used in portable devices such as computers, phones, and low-power measuring devices; the battery source usually contained only one cell
LIBs are gradually being used in electric vehicles (EVs), hybrid electrical vehicles (HEVs), and energy storage systems in the wind and solar power (WSP) industries to protect the environment [4,5]
Summary
Batteries and fuel cells have been widely used in various fields, including the power industry, transportation, and portable devices, as a solution to energy shortages and environmental pollution problems [1,2,3]. LIBs were used in portable devices such as computers, phones, and low-power measuring devices; the battery source usually contained only one cell. LIBs are gradually being used in electric vehicles (EVs), hybrid electrical vehicles (HEVs), and energy storage systems in the wind and solar power (WSP) industries to protect the environment [4,5]. The LIB market could show significant growth in the power industry and transportation, as forecasted in [6]. SoC depends on many factors including the voltage of the cell, ambient temperature of the cell, aging of the cell, Published: 16 May 2021
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