| - |
Nickel-cadmium
(NiCd) |
Nickel-metal-hydride (NiMH) |
Lithium-ion
(Li-ion) |
Lead-acid
(Sealed or flooded) |
| Used in |
Two-way radios, power tools, medical. |
Similar application as NiCd; higher density. |
Cell phones, laptops, video cameras. |
Motorcycles, cars, wheelchairs, UPS. |
| Charging |
Do run the battery fully down once per month; try to use up all energy before charging.
Do not leave battery in charger for more than 2 days because of memory.
Avoid getting battery too hot during charge.
Charge methods: Constant current, followed by trickle charge when full. Fast-charge preferred over slow charge.
Slow charge = 16h
Rapid charge = 3h
Fast charge = 1h+ |
Do run the battery fully down once every 3 months. Over-cycling is not advised.
Do not leave battery in charger for more than 2 days because of memory.
Avoid getting battery too hot during charge.
Charge methods:
Constant current, followed by trickle charge when full. Slow charge not recommended.
Battery will get warm towards full charge.
Rapid charge = 3h
Fast charge = 1h+ |
Do charge the battery often. The battery lasts longer with partial rather than full discharges.
Do not use if pack gets hot during charge. Check also charger.
Charge methods: Constant voltage to 4.20V/cell (typical). No trickle-charge when full. Li-ion may remain in the charger (no memory). Battery must remain cool. No fast-charge possible.
Rapid charge = 3h |
Do charge the battery immediately after use. Lead-acid must always be kept in a charged condition. The battery lasts longer with partial rather than full discharges. Over-cycling is not advised.
Charge methods: Constant voltage to 2.40/cell (typical), followed by float held at 2.25V/cell.
Battery must remain cool. Fast charge not possible; can remain on float charge.
Slow charge = 14h
Rapid charge = 10h |
| Discharging |
Full cycle does not harm NiCd.
NiCd is one of the most hardy and durable chemistries. |
Avoid too many full cycles because of wear. Use 80% depth-of-discharge.
NiMH has higher energy density than NiCd at the expense of shorter cycle life. |
Avoid full cycle because of wear. 80% depth-of-discharge recommended. Re- charge more often. Avoid full discharge. Low voltage may cut off safety circuit |
Avoid full cycle because of wear. Use 80% depth-of-discharge. Recharge more often or use larger battery.
Low energy density limits lead-acid to wheeled applications |
| Service needs |
Discharge to 1V/cell every 1 to 2 months to prevent memory.
Do not discharge before each charge. |
Discharge to 1V/cell every 3 months to prevent memory.
Do not discharge before each charge |
No maintenance needed. Loses capacity due to aging whether used or not. |
Apply topping charge every 6 months. Occasional discharge/ charge may improve performance. |
| Storage |
Best to store at 40% charge in a cool place. Open terminal voltage cannot determine state-of-charge. 5 years and longer storage possible. Prime battery if stored longer than 6 months. |
Store at 40% charge in a cool place. Open terminal voltage cannot determine state-of-charge. Prime battery if stored longer than 6 months. |
Store at 40% charge in a cool place (40% state-of-charge reads 3.75-3.80V/cell at open terminal.
Do not store at full charge and at warm temperatures because of accelerated aging. |
Store always at a full state-of-charge. Do not store below 2.10V/cell; apply topping charge very 6 months. |
| Disposal |
Do not dispose; contains toxic metals; must be recycled. |
Should be recycled. Low volume household NiMH may be disposed. |
Should be recycled. Low volume household Li-ion may be disposed |
Do not dispose; must be recycled. |
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