Datasheet

Spec. No.

ICR18650-26F Version No.

0.0

3.2 Discharging temperature

3.2.1 The cell should be discharged within a range of temperatures specified in

the product specification.

3.2.2 Otherwise, it may cause loss of characteristics.

3.3 Over-discharging

3.3.1 The system should equip with a device to prevent further discharging

exceeding discharging cut-off voltage specified in the product

specification.(over-discharging)

3.3.2 Over-discharging may cause loss of performance, characteristics, of

battery function.

3.3.3 Over-discharging may occur by self-discharge if the battery is left for

a very long time without any use.

3.3.4 The charger should equip with a device to detect cell voltage and to

determine recharging procedures.

4. Storage

4.1 Storage conditions

4.1.1 The cell should be stored within a range of temperatures specified

in the product specification.

4.1.2 Otherwise, it may cause loss of characteristics, leakage and/or rust.

4.2 Long-term storage

4.2.1 The cell should be used within a short period after charging because

long-term storage may cause loss of capacity by self-discharging.

4.2.2. If long-term storage is necessary, the cell should be stored at lower

voltage within a range specified in the product specification, because

storage at higher voltage may cause loss of characteristics.

5. Cycle life

5.1 Cycle life performance

5.1.1 The cell can be charged/discharged repeatedly up to times specified in

the produce specification with a certain level of capacity also specified

in the product specification.

5.1.2 Cycle life may be determined by conditions of charging, discharging,

operating temperature and/or storage.

6. Design of System

6.1 Connection between the cell and the battery

6.1.1 The cell should not be soldered directly with leads. Namely, the cell

should be welded with leads on its terminal and then be soldered with

wire or leads to soldered lead.