
Li-Ion Battery 24V 100AH Rechargeable Lithium-Ion Battery For Solar Storage
Li-Ion Battery 24V 100AH Rechargeable Lithium-Ion Battery For Solar Storage
Weight | 26kg | |
Size | 520*238*228mm/ custom | |
Working Temperature | Charge | -20°C ~ 45°C , 65±20%RH; |
Discharge | -20°C ~65°C , 65±20%RH | |
Storage Temperature | Less than 1 month | -20°C ~ 45°C |
less than 3 months | -20°C ~ 35°C | |
Retention of charge(store in one month) | above 95% | |
Technical Data | ||
Rated Voltage | 25.6V | |
Rated Capacity | 100Ah | |
Inner Resistance | below 50 mΩ | |
Charge & Discharge | Way of charge | CC/CV(Constant Current / Constant Voltage) |
Standard Charge Current | 0.2c (Adjustable) | |
Max Charge Current | 1c or customized | |
Over Charge cut-off voltage | 29.6v± 0.025V(optional) | |
Continuous Discharge Current | 0.5c (Adjustable) | |
Discharge cut-off voltage | 20v ± 0.025V(optional) | |
Peak Discharge Current | 3c or customized | |
Cell Over Charge Protection Voltage | 3.65v ± 0.025V(optional) | |
Cell Over discharge Protection Voltage | 2.5v ± 0.025V(optional) |
Medical magnetic resonance imaging, high-power microwave generators, superconducting magnetic energy storage units, and the solenoids in nuclear fusion reactors are very different technologies which all critically rely on the ability of superconducting materials to carry and store large electric currents in a compact space without overheating or dissipating large amounts of energy.
Despite their extraordinary properties, most superconducting materials present their own set of demands, such as the need to cool down to the temperature of liquid helium for medical MRIs. Still, superconductors are so efficient compared to everyday materials like copper that the cost of cooling them down with special cryogenic circuits is negligible compared to the energy saved from being converted — and ultimately wasted — in the form of heat, says Riccardo Comin, an assistant professor of physics.