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| S-8200AAC-M6T1U Datasheet, PDF (9/36 Pages) Seiko Instruments Inc – BATTERY PROTECTION IC FOR 1-CELL PACK | |||
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Rev.4.0_02
BATTERY PROTECTION IC FOR 1-CELL PACK
S-8200A Series
2. Ta = â40°C to +85°C*1
Table 10
(Ta = â40°C to +85°C*1 unless otherwise specified)
Item
Symbol
Condition
Min.
Typ.
Max.
Unit
Test
Circuit
Detection Voltage
Overcharge detection voltage
VCU
â
VCU â 0.045 VCU VCU + 0.030 V 1
Overcharge release voltage
VCL
VCL â VCU
VCL = VCU
VCL â 0.070
VCL
VCL + 0.040 V 1
VCL â 0.050
VCL
VCL + 0.030 V 1
Overdischarge detection voltage
VDL
â
VDL â 0.070
VDL
VDL + 0.045 V 2
Overdischarge release voltage
VDU
VDL â VDU
VDL = VDU
VDU â 0.090 VDU VDU + 0.060 V 2
VDU â 0.070 VDU VDU + 0.045 V 2
Discharge overcurrent detection voltage VDIOV
â
VDIOV â 0.010 VDIOV VDIOV + 0.010 V 2
Load short-circuiting detection voltage
VSHORT
â
VSHORT â 0.100 VSHORT VSHORT + 0.100 V
2
Charge overcurrent detection voltage
VCIOV
â
VCIOV â 0.015 VCIOV VCIOV + 0.015 V 2
0 V Battery Charge Function
0 V battery charge starting charger voltage V0CHA
0 V battery charge
function "available"
0.0
0.7
1.5
V2
0 V battery charge inhibition battery
voltage
V0INH
0 V battery charge
function "unavailable"
0.4
0.8
1.3
V2
Internal Resistance
Resistance between VM pin and VDD pin RVMD VDD = 1.8 V, VVM = 0 V
78
Resistance between VM pin and VSS pin RVMS VDD = 3.4 V, VVM = 1.0 V
7.2
300
1310
kΩ 3
20
44
kΩ 3
Input Voltage
Operation voltage between VDD pin and
VSS pin
VDSOP1
â
1.5
â
6.5
Vâ
Operation voltage between VDD pin and
VM pin
VDSOP2
â
1.5
â
28
Vâ
Input Current (With Power-down Function)
Current consumption during operation
IOPE
Current consumption during power-down IPDN
VDD = 3.4 V, VVM = 0 V
VDD = VVM = 1.5 V
0.7
2.8
5.5
μA 2
â
â
0.15
μA 2
Input Current (Without Power-down Function)
Current consumption during operation
IOPE
Current consumption during overdischarge IOPED
VDD = 3.4 V, VVM = 0 V
VDD = VVM = 1.5 V
0.7
2.8
5.5
μA 2
â
â
3.8
μA 2
Output Resistance
CO pin resistance "H"
CO pin resistance "L"
DO pin resistance "H"
DO pin resistance "L"
RCOH
VCO = 3.0 V, VDD = 3.4 V,
VVM = 0 V
2.4
10
RCOL
VCO = 0.4 V, VDD = 4.6 V,
VVM = 0 V
2.4
10
RDOH
VDO = 3.0 V, VDD = 3.4 V,
VVM = 0 V
2.4
10
RDOL
VDO = 0.4 V, VDD = 1.8 V,
VVM = 0 V
2.4
10
30
kΩ 4
30
kΩ 4
30
kΩ 4
30
kΩ 4
Delay Time
Overcharge detection delay time
tCU
â
tCU Ã 0.6
tCU
tCU Ã 1.6
â5
Overdischarge detection delay time
tDL
â
tDL Ã 0.6
tDL
tDL Ã 1.6
â5
Discharge overcurrent detection delay time tDIOV
â
tDIOV Ã 0.6
tDIOV
tDIOV Ã 1.6
â5
Load short-circuiting detection delay time tSHORT
â
tSHORT Ã 0.6 tSHORT tSHORT Ã 1.6
â
5
Charge overcurrent detection delay time tCIOV
â
tCIOV Ã 0.6
tCIOV
tCIOV Ã 1.6
â5
*1. Since products are not screened at high and low temperature, the specification for this temperature range is guaranteed by
design, not tested in production.
9
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