A kind of capacity division method of lithium ion battery
A lithium-ion battery and capacity separation technology, which is applied in secondary batteries, electrolyte storage battery manufacturing, non-aqueous electrolyte storage batteries, etc., can solve the problems of inaccurate lithium-ion battery capacity and large temperature influence, and achieve short capacity separation time and reduce Effect of temperature, ease of control
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Embodiment 1
[0023] The capacity division method of the lithium-ion battery of the present embodiment may further comprise the steps:
[0024] 1) Charge the lithium-ion battery to full charge at 20°C in three stages:
[0025] In the first stage, the lithium-ion battery is charged to 3.65V at a constant current of 0.5C and left for 5 minutes;
[0026] In the second stage, the lithium-ion battery is charged to 3.65V at a constant current of 0.1C and left for 5 minutes;
[0027] In the third stage, the lithium-ion battery is charged to 3.65V at a constant current of 0.05C;
[0028] 2) Discharge the fully charged lithium-ion battery at 20°C:
[0029] Discharge the fully charged lithium-ion battery to 2.5V at a constant current of 0.5C, and record the discharge capacity C 1 , placed for 10min;
[0030] Then discharge to 2.5V with a constant current of 0.1C, and record the discharge capacity C 2 ;
[0031] 3) Calculate the split capacity of the lithium-ion battery:
[0032] Add the discha...
Embodiment 2
[0034] The capacity division method of the lithium-ion battery of the present embodiment may further comprise the steps:
[0035] 1) Charge the lithium-ion battery to full charge at 25°C in three stages:
[0036] In the first stage, charge the lithium-ion battery with a constant current of 1C for 1h and leave it for 1min;
[0037] In the second stage, the lithium-ion battery is charged to 3.65V at a constant current of 0.1C and left for 1min;
[0038] In the third stage, charge the lithium-ion battery with a constant current of 0.05C to 3.65V, and let it stand for 10 minutes;
[0039] 2) Discharge the fully charged lithium-ion battery at 25°C:
[0040] Discharge the fully charged lithium-ion battery to 2.5V at a constant current of 1C, and record the discharge capacity C 1 , placed for 5min;
[0041] Then discharge to 2.5V with a constant current of 0.1C, and record the discharge capacity C 2 ;
[0042] 3) Calculate the split capacity of the lithium-ion battery:
[0043...
Embodiment 3
[0045] The capacity division method of the lithium-ion battery of the present embodiment may further comprise the steps:
[0046] 1) Charge the lithium-ion battery to full charge at 30°C in three stages:
[0047] In the first stage, the lithium-ion battery is charged to 3.65V at a constant current of 0.5C and left for 10 minutes;
[0048] In the second stage, the lithium-ion battery is charged to 3.65V at a constant current of 0.1C and left for 10 minutes;
[0049] In the third stage, charge the lithium-ion battery with a constant current of 0.05C to 3.65V, and let it stand for 1min;
[0050] 2) Discharge the fully charged lithium-ion battery at 30°C:
[0051] Discharge the fully charged lithium-ion battery to 2.5V at a constant current of 0.5C, and record the discharge capacity C 1, place for 1min;
[0052] Then discharge to 2.5V with a constant current of 0.05C, and record the discharge capacity C 2 ;
[0053] 3) Calculate the split capacity of the lithium-ion battery:...
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