Datasheet MM1309CF, MM1309BF Datasheet (MITSMI)

Page 1
MITSUMI
Protection of Lithium Ion Battery (three cells in series) MM1309
Protection of Lithium Ion Batteries (three cells in series)
Monolithic IC MM1309
Outline
This is a 3-cell series protection IC is for protecting a lithium ion battery from overcharging and excess discharging. If abnormalities occur during charging and excess voltage is applied, it has a function that turns off the external FET switch (overcharging detection). It also has a function that turns off the external FET switch when the voltage for each battery falls below a set voltage, to prevent excess discharge when discharging the battery (discharging detection). At that time, the IC is switched to low current consumption mode. These functions comprise a protection circuit, with few external parts, for lithium ion batteries.
Features
1. Current consumption (for VCC pin) VCELL=4.4V 700µA typ.
2. Current consumption (for V
3. Current consumption (for V
4. Current consumption (for V
5. Current consumption (for BATH pin) V
6. Current consumption (for BATH pin) V
7. Current consumption (for BATH pin) V
8. Charge prohibit voltage (Ta=
9. Charge prohibit release voltage V
10.Charge prohibit detection function operation voltage B : 4.20V typ.
11.Excess discharge detection voltage 2.40V±0.09V, 2.35V±0.09V
12.Discharge resumption voltage B : 2.65V±0.16V
13.Excess discharge detection hysteresis voltage 250±75mV
CC pin) VCELL=4.2V 300µA typ. CC pin) VCELL=3.8V 25µA typ. CC pin) VCELL=2.2V 0.1µA max.
CELL=4.4V 12µA typ. CELL=3.8V 8µA typ. CELL=2.2V 1µA typ.
-
20°C~+70°C) B : 4.35V±50mV
C : 4.25V±50mV
CELLU
-
45mV
C : 4.10V typ.
C : 2.60V±0.16V
Package
SOP-8C (MM1309 F)
The box represents the rank resulting from the combination of protection functions.
*
Applications
1. Notebook PCs
2. Portable terminals
3. Others
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MITSUMI
1432
8567
SOP-8C
High Impedance
High Impedance
High Impedance
V
CELL
U
V
CELL
O
V
CELL
D
V
CELL
S
V
CELL
U
V
CELL
O
V
CELL
D
V
CELL
S
V
CELL
O
V
CELL
D
V
CELL
S
B
ATM
B
ATH
B
ATL
V
ALM
V
ALM
V
ALM
D
CHG
OV
H
L
L
Excess discharge
Normal
Overcharge
Normal
Excess discharge
Overcharge
Normal
Overcharge
Excess discharge
Normal
Unbalanced (large voltage differences)
V
CELL
U
Pin Assignment
Protection of Lithium Ion Battery (three cells in series) MM1309
1 DCHG
2 N. C
3 OV
4 GND
Pin Description
No. Pin Output Function
1 D
2 N. C
3 OV Output
4 GND
5 B
6 B
7 B
8 V
CHG Output
ATL Input
ATM Input
ATM Input
CC
FET drive pin for excess discharge control
FET drive pin for overcharge control
Negative connection pin for the low side battery. Also, IC GND pin.
(IC reference power supply pin)
Positive connection pin for the low side battery, and negative connection pin for the
middle side battery.
Positive connection pin for the middle side battery, and negative connection pin for
the high side battery.
Positive connection pin for the high side battery.
IC positive power supply input pin.
5 B
ATL
6 BATM
7 BATM
8 VCC
Timing Chart
Page 3
MITSUMI
Output Pin Conditions
Pin
Voltage
DCHG
OV
Excess discharge
Normal
Overcharge
2.4V/CELL
4.35V/CELL
H
L
L
High Impedance
Block Diagram
Protection of Lithium Ion Battery (three cells in series) MM1309
Absolute Maximum Ratings
Item Symbol Rating Units
Storage temperature T
Operating temperature T
Charging voltage V
Power supply voltage V
OV2 pin applied voltage V
Allowable power dissipation Pd 300 mW
(Ta=25°C)
STG
OPR
BAT max. 15 V
OC max. 15 V
O max. 18 V
-
40~+125 °C
-
20~+70 °C
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MITSUMI
Protection of Lithium Ion Battery (three cells in series) MM1309
Electrical Characteristics
Item Symbol Current consumption (V Current consumption (V Current consumption (V Current consumption (V
Current consumption (BATH pin) 1 I Current consumption (BATH pin) 2 I Current consumption (BATH pin) 3 I
Charge prohibit voltage
Charge prohibit release voltage V
Charge prohibit detection function operation voltage
Charge prohibition sensing operation
voltage Hysteresis voltage
Excess discharging detection voltage
Discharge resumption voltage
Excess discharge detection
hysteresis voltage
BATL pin input voltage 1 I
BATL pin input voltage 2 I BATM pin input voltage 1 I BATM pin input voltage 2 I DCHG pin source voltage I
DCHG sink voltage I
DCHG output voltage L V
DCHG output voltage M V
OV pin sink current I
CC pin) 1 ICC1VCELL=4.4V 0.7 1.1 mA CC pin) 2 ICC2VCELL=4.2V 300 450 µA CC pin) 3 ICC3VCELL=3.8V 25.0 40.0 µA CC pin) 4 ICC4VCELL=2.3V 0.1 µA
MM1309BF MM1309CF V
MM1309BF MM1309CF 3.95 4.10 4.25
MM1309BF MM1309CF 2.26 2.35 2.44 MM1309BF MM1309CF 2.44 2.60 2.76
(Unless otherwise specified Ta=25°C, VIN=15V, V
Measurement Conditions
BATH1VCELL=4.4V 12.0 20.0 µA BATH2VCELL=3.8V 8.0 12.0 µA BATH3VCELL=2.3V 1.0 2.0 µA
-
20~70°C 4.30 4.35 4.40
VCELLU
CELLOVCELL=4.5V 4.0V
V
ALM VCELL=3.8V 4.4V
V
ALM VCELL=4.4V 3.8V 50 90 130 mV
V
CELLSVCELL=3.0V 2.0V
CELLDVCELL=2.0V 3.0V
V
CSDVCELLD
V
BATLVCELL=3.8V ±300 nA
BATLA VCELL=4.4V 0.7 1.0 1.3 uA
BATMVCELL=3.8V ±300 nA
BATMA VCELL=4.4V 0.7 1.0 1.3 uA
SODCH VCELL < VCELLS 20 uA
SIDCH VCELL > VCELLS 20 uA THDCLBATH
THDCHDCHG
SIOV VOV=0.4, Ta=
Ta=
CELL=4.0V 4.5V 4.20 4.25 4.30
-
VCELLS 175 250 325 mV
-
DCHG IS=20uA 1.0 V
-
GND IS=-20uA 0.8 V
-
20~70°C 200 uA
CELL=VBAT
H=V
Min Typ. Max. Units
V
CELL
UV
CELL
-
60mV-45mV-30mV
4.05 4.20 4.25
2.31 2.40 2.49
2.49 2.65 2.81
BAT
UV
CELL
M=V
U
BAT
L)
V
V
V
V
V
Application
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