Rechargeable Battery 48V 100AH 200AH Lifepo4 Battery High Quality Deep Cycle Battery
Model |
Lithium battery |
Rated Capacity (5HR) |
100AH |
Nominal Voltage |
51.2V |
Discharge Ending Voltage |
43.2V |
Charging Limited Voltage |
57.6V |
Max.Charging Current |
50.0A |
Max.Continue Discharging Current |
50.0A |
Weight |
Approx.49kg |
Display |
Optional |
Parallel Connection |
Parallel connection is optional(up to 16P). When paralleling,the max. charging current is 20A |
Dimensions (W*D*H)mm(inches) |
436(17.17”)*420(16.54”)*220(8.66”) |
Containing Cell |
3.2V 50AH |
Design Life |
More than 10years |
Cycle Life |
More than 3000 cycles at 80% DOD |
IP Class |
IP30 |
Outer Package Material |
White bake lacquer steel case (battery rack or cabinet is optional) |
Operating Temperature |
Charging : 0 to +45℃ Discharging : -20 to +60℃ Storage : -20 to +60℃ |
Rechargeable Battery 48V 100AH 200AH Lifepo4 Battery High Quality Deep Cycle Battery
A new approach to the design of a liquid battery, using a passive, gravity-fed arrangement similar to an old-fashioned hourglass, could offer great advantages due to the system’s low cost and the simplicity of its design and operation, says a team of MIT researchers who have made a demonstration version of the new battery.
Liquid flow batteries — in which the positive and negative electrodes are each in liquid form and separated by a membrane — are not a new concept, and some members of this research team unveiled an earlier concept three years ago. The basic technology can use a variety of chemical formulations, including the same chemical compounds found in today’s lithium-ion batteries. In this case, key components are not solid slabs that remain in place for the life of the battery, but rather tiny particles that can be carried along in a liquid slurry. Increasing storage capacity simply requires bigger tanks to hold the slurry.