Material: The lithium-titanate-oxide (LTO)
Nominal capacity: 10Ah
Nominal voltage: 2.4V
Output Power: 1800W*（SOC50%, 10s, 25℃）
Input Power: 1500W*（SOC 50%, 10s, 25℃）
Volumetric energy density: 92Wh/L
Weight energy density: 47Wh/kg
Dimensions: W116 × D22 × H106 mm
Weight: Approx. 510g
Output power density: 6654.0W/Lcanshu
Output specific power: 3529.4W/kg
Input power density: 5545.0W/L
Input specific power: 2941.2W/kg
Applications: widely used for applications that require short-time high power charge/discharge such as electric vehicles, household&industrial solar storage, car audio&car start, UPS etc.
Features / Advantages / Highlight
- Safety: Low risk of fire or explosion
In case of an internal short circuit, the lithium titanium oxide(LTO) in the anode layer of Toshiba 2.4V 10Ah LTO battery cell phase transforms to being highly resistive, thus minimizing risk of drastic current flow that may lead to rupture, fire, or other accidents.
- Long life: Cycle life of 20,000 time or more
The capacity remains at 70% or more even after 20,000 times of charging/discharging. Toshiba 2.4V 10Ah LTO battery cell also hassmall degree of deterioration even with float charging*, making it usable for applications that keep constant voltage such as backup power supply.
- Rapid charging: Rapidly charges to about 80% of the capacity in 6 minutes
The favorable anode charging characteristics provide rapid charging to about 80% of the capacity in 6 minutes.
- Performance at low temperature: Usable even at -30°C
Since there is almost no lithium metal deposition even at low temperature usage, repeated charging and discharging is possible at-30℃.
- High input/output: Large current for both input and output
Toshiba 2.4V 10Ah LTO battery cell can accept large current input and output. Thus, it can store large regenerative energy generated during deceleration of railways and automobiles, and can supply large current necessary for starting the motor.
- Wide effective SOC range: Available SOC range of 0 to 100%
Toshiba 2.4V 10Ah LTO battery cell exhibits excellent input/output characteristics over a wide SOC* range. This makes it possible to reduce the nominal battery capacity or amount of batteries necessary for a system, as compared to other batteries that have a narrower SOC range.