Publication detail
Li-Ion Battery Deep Discharge Degradation
PROCHÁZKA, P. ČERVINKA, D. MARTIŠ, J. CIPÍN, R. VOREL, P.
Original Title
Li-Ion Battery Deep Discharge Degradation
English Title
Li-Ion Battery Deep Discharge Degradation
Type
conference paper
Language
en
Original Abstract
A massive boom of Li-ion batteries in EVs, avionic applications as well as other industrial electronics can be observed nowadays. Deep discharging or over-charging must be avoided to ensure sufficient life-time and sometimes also the operation safety of these batteries. BMS circuits co-operating with the charger and also disabling deep discharging of the cells are necessarily present in battery packs. However, some deep discharging can appear in a case of BMS failure or poor user care of the batteries. Then the battery can be discharged to zero voltage. Battery manufacturers do not allow such operation and battery behavior in this situation is not described in their datasheets. Experimental deep discharging was performed. After discharging, the battery was left in a fully discharged state (zero voltage) for various time intervals before it was fully recharged again. Consequently, capacity decrease or internal resistance increase in dependence on this time interval was checked.
English abstract
A massive boom of Li-ion batteries in EVs, avionic applications as well as other industrial electronics can be observed nowadays. Deep discharging or over-charging must be avoided to ensure sufficient life-time and sometimes also the operation safety of these batteries. BMS circuits co-operating with the charger and also disabling deep discharging of the cells are necessarily present in battery packs. However, some deep discharging can appear in a case of BMS failure or poor user care of the batteries. Then the battery can be discharged to zero voltage. Battery manufacturers do not allow such operation and battery behavior in this situation is not described in their datasheets. Experimental deep discharging was performed. After discharging, the battery was left in a fully discharged state (zero voltage) for various time intervals before it was fully recharged again. Consequently, capacity decrease or internal resistance increase in dependence on this time interval was checked.
Keywords
Li-ion, battery, LabVIEW
Released
07.12.2016
Publisher
The Electrochemical Society
ISBN
9781607685395
Book
ECS Transactions
Edition
74
Issue number
1
Pages from
31
Pages to
36
Pages count
6
URL
Documents
BibTex
@inproceedings{BUT129694,
author="Petr {Procházka} and Dalibor {Červinka} and Jan {Martiš} and Radoslav {Cipín} and Pavel {Vorel}",
title="Li-Ion Battery Deep Discharge Degradation",
annote="A massive boom of Li-ion batteries in EVs, avionic applications as well as other industrial electronics can be observed nowadays. Deep discharging or over-charging must be avoided to ensure sufficient life-time and sometimes also the operation safety of these batteries. BMS circuits co-operating with the charger and also disabling deep discharging of the cells are necessarily present in battery packs. However, some deep discharging can appear in a case of BMS failure or poor user care of the batteries. Then the battery can be discharged to zero voltage. Battery manufacturers do not allow such operation and battery behavior in this situation is not described in their datasheets.
Experimental deep discharging was performed. After discharging, the battery was left in a fully discharged state (zero voltage) for various time intervals before it was fully recharged again. Consequently, capacity decrease or internal resistance increase in dependence on this time interval was checked.",
address="The Electrochemical Society",
booktitle="ECS Transactions",
chapter="129694",
doi="10.1149/07401.0031ecst",
edition="74",
howpublished="online",
institution="The Electrochemical Society",
number="1",
year="2016",
month="december",
pages="31--36",
publisher="The Electrochemical Society",
type="conference paper"
}