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This paper proposes a standard and flexible test bench architecture for the testing and modeling of electrochemical energy modules. It also presents a comprehensive methodology that enables to obtain accurate models under realistic operating conditions with a low computational cost. For this purpose, three different configurationmodes of the experimental architecture setup are introduced. Finally, the test bench architecture and the experimental-methodology proposed have been validated by themodeling and testing of a Li-ion battery pack and a supercapacitor module.
experimental architecture setup; frequency-time domain testing; hil simulation; li-ion battery pack; supercapacitor module; storage systems; ion batteries; simulation; supercapacitor; model