This paper presents an analysis of the capacity and the state of health (SoH) of 3Ah lithium battery cells operating in a real case vibration stress scenario based on drones. An unmanned aerial vehicle (quad-copter) is adopted to acquire real vibration profiles during different phases of flight. Firstly, the possible capacity fade and aging effect on lithium cells are investigated by considering vibrations applied to the radial and longitudinal battery axes with both short-term and long-term (aging) tests. Then, the cruise-flight vibration profiles are applied and characterized. A comparison with standard (no vibrations) cycling aging is also presented and discussed. Experimental results show that no significant effect on capacity fade can be observed between standard and real case vibrating operating conditions.
Capacity Fade and Aging Effect on Lithium Battery Cells: a real case vibration test with UAV
Caposciutti, Gianluca;Bandini, Gabriele;Marracci, Mirko
;Buffi, Alice;Tellini, Bernardo
2021-01-01
Abstract
This paper presents an analysis of the capacity and the state of health (SoH) of 3Ah lithium battery cells operating in a real case vibration stress scenario based on drones. An unmanned aerial vehicle (quad-copter) is adopted to acquire real vibration profiles during different phases of flight. Firstly, the possible capacity fade and aging effect on lithium cells are investigated by considering vibrations applied to the radial and longitudinal battery axes with both short-term and long-term (aging) tests. Then, the cruise-flight vibration profiles are applied and characterized. A comparison with standard (no vibrations) cycling aging is also presented and discussed. Experimental results show that no significant effect on capacity fade can be observed between standard and real case vibrating operating conditions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
