Determination system and determination method for determining whether metal lithium is preciptated in a lithium ion secondary battery, and vehicle equipped with the determination system
Abstract
A determination system for determining whether metal lithium is precipitated in a lithium ion secondary battery includes: a discharging unit that causes the lithium ion secondary battery to perform constant current discharge until a voltage of the lithium ion secondary battery becomes a voltage corresponding to a predetermined low state of charge; a natural increase acquisition unit that acquires a natural increase in voltage of the lithium ion secondary battery after the constant current discharge is terminated; and a precipitation determining unit the compares the acquired natural increase with a predetermined threshold, that determines that the metal lithium is not precipitated when the natural increase is larger than or equal to the threshold, and that determines that the metal lithium is precipitated when the natural increase is smaller than the threshold.
Claims
exact text as granted — not AI-modified1 - 7 . (canceled)
8 . A determination method for determining whether metal lithium is precipitated in a lithium ion secondary battery, comprising:
causing the lithium ion secondary battery to perform constant current discharge; terminating the constant current discharge when the lithium ion secondary battery has a predetermined low state of charge through the constant current discharge; acquiring a natural increase in voltage of the lithium ion secondary battery after the constant current discharge is terminated; comparing the acquired natural increase with a predetermined threshold; and determining that the metal lithium is not precipitated when the natural increase is larger than or equal to the threshold, and determining that the metal lithium is precipitated when the natural increase is smaller than the threshold.
9 . The determination method according to claim 8 , further comprising increasing the threshold for comparison with the natural increase as a temperature of the lithium ion secondary battery decreases, and decreasing the threshold for comparison with the natural increase as the temperature of the lithium ion secondary battery increases.
10 . The determination method according to claim 8 , further comprising:
correcting the acquired natural increase to a smaller value as a temperature of the lithium ion secondary battery decreases, and correcting the acquired natural increase to a larger value as the temperature of the lithium ion secondary battery increases; and comparing the corrected natural increase with the threshold.
11 . The determination method according to claim 8 , further comprising:
ahead of the constant current discharge, determining whether a voltage of the lithium ion secondary battery is higher than or equal to a predetermined determination start allowable voltage; and when it is determined that the voltage of the lithium ion secondary battery is higher than or equal to the determination start allowable voltage, the constant current discharge is immediately started; whereas, when it is determined that the voltage of the lithium ion secondary battery is lower than the determination start allowable voltage, the lithium ion secondary battery is charged to a predetermined target charge voltage and then the constant current discharge is started.
12 . The determination method according to claim 11 , wherein the determination start allowable voltage corresponds to a 60 to 70 percent state of charge of the lithium ion secondary battery.
13 . The determination method according to claim 8 , wherein the predetermined low state of charge is a 10 to 20 percent state of charge of the lithium ion secondary battery.Cited by (0)
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