Title :
Single-Switch Multioutput Charger Using Voltage Multiplier for Series-Connected Lithium-Ion Battery/Supercapacitor Equalization
Author :
Uno, Masatoshi ; Tanaka, Kiyoshi
Author_Institution :
Japan Aerosp. Exploration Agency, Tsukuba, Japan
Abstract :
Voltage equalization is essential for series-connected energy storage cells, such as lithium-ion cells and supercapacitors (SCs), because it ensures years of service life and maximizes the available energies of cells. Conventional equalizers and multioutput chargers require many switches and/or a multiwinding transformer, which are not desirable in terms of circuit simplicity and extendibility. In this paper, single-switch multioutput chargers based on a combination of an input cell (which generates a square voltage wave) and a voltage multiplier (which produces multiple uniform output voltages) are proposed. A fundamental operation analysis is made, and a dc equivalent circuit is derived to describe their charging and equalization behaviors. Experimental charge tests were performed separately for series-connected SC modules and lithium-ion batteries from voltage-unbalanced conditions. The least charged module/battery was charged preferentially; as a result, all of the modules/batteries were charged to a desired uniform voltage level while eliminating the voltage imbalance.
Keywords :
battery chargers; equalisers; equivalent circuits; lithium; secondary cells; supercapacitors; transformer windings; voltage multipliers; Li; charged module-battery; charging behaviors; dc equivalent circuit; equalization behaviors; experimental charge tests; fundamental operation analysis; lithium-ion cells; multiwinding transformer; series-connected SC modules; series-connected energy storage cells; series-connected lithium-ion battery-supercapacitor equalization; service life; single-switch multioutput charger; single-switch multioutput chargers; uniform voltage level; voltage equalization; voltage imbalance elimination; voltage multiplier; voltage-unbalanced conditions; Batteries; Capacitors; Equalizers; Inductors; Switches; Topology; Charger; equalization; lithium-ion battery; multioutput; supercapacitor (SC); voltage multiplier;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2012.2203776
