English
Language : 

S-82A1AAB-I6T1U Datasheet, PDF (13/44 Pages) Seiko Instruments Inc – BATTERY PROTECTION IC FOR 1-CELL PACK
Rev.2.0_00
BATTERY PROTECTION IC FOR 1-CELL PACK
S-82A1A Series
7. Current consumption during operation
(Test circuit 3)
The current consumption during operation (IOPE) is the current that flows through the VDD pin (IDD) under the set
conditions of V1 = 3.4 V and V2 = V5 = 0 V.
8. Current consumption during power-down, current consumption during overdischarge
(Test circuit 3)
8. 1 With power-down function
The current consumption during power-down (IPDN) is IDD under the set conditions of V1 = V2 = 1.5 V, V5 = 0 V.
8. 2 Without power-down function
The current consumption during overdischarge (IOPED) is IDD under the set conditions of V1 = V2 = 1.5 V, V5 = 0 V.
9. Resistance between VDD pin and VM pin
(Test circuit 3)
RVMD is the resistance between VDD pin and VM pin under the set conditions of V1 = 1.8 V, V2 = V5 = 0 V.
10. Resistance between VM pin and VSS pin (Release condition of discharge overcurrent status "load
disconnection")
(Test circuit 3)
RVMS is the resistance between VM pin and VSS pin when the voltage V5 is decreased to 0 V from the starting
conditions of V1 = 3.4 V, V2 = V5 = 1.0 V.
11. CO pin resistance "H"
(Test circuit 4)
The CO pin resistance "H" (RCOH) is the resistance between VDD pin and CO pin under the set conditions of V1 = 3.4 V,
V2 = V5 = 0 V, V3 = 3.0 V.
12. CO pin resistance "L"
(Test circuit 4)
The CO pin resistance "L" (RCOL) is the resistance between VM pin and CO pin under the set conditions of V1 = 4.7 V,
V2 = V5 = 0 V, V3 = 0.4 V.
13. DO pin resistance "H"
(Test circuit 4)
The DO pin resistance "H" (RDOH) is the resistance between VDD pin and DO pin under the set conditions of V1 = 3.4 V,
V2 = V5 = 0 V, V4 = 3.0 V.
14. DO pin resistance "L"
(Test circuit 4)
The DO pin resistance "L" (RDOL) is the resistance between VSS pin and DO pin under the set conditions of V1 = 1.8 V,
V2 = V5 = 0 V, V4 = 0.4 V.
15. Overcharge detection delay time
(Test circuit 5)
The overcharge detection delay time (tCU) is the time needed for VCO to go to "L" just after the voltage V1 increases
and exceeds VCU under the set conditions of V1 = 3.4 V, V2 = V5 = 0 V.
13