MM3575A02WBH [MITSUMI]
3 to 5cells Li-ion/Li-polymer battery protection IC;型号: | MM3575A02WBH |
厂家: | MITSUMI ELECTRONICS, CORP. |
描述: | 3 to 5cells Li-ion/Li-polymer battery protection IC |
文件: | 总6页 (文件大小:73K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
MITSUMI
3 to 5cells Li-ion/Li-polymer battery protection IC MM3575 Series
3 to 5cells Li-ion/Li-polymer battery protection IC
MM3575 Series
Outline
The MM3575 series are protection IC using high voltage CMOS process for overcharge, overdischarge
and overcurrent protection of the rechargeable Lithium-ion or Lithium-polymer battery. The overcharge,
overdischarge, discharging overcurrent, charging overcurrent, cell balance and V5 to V3 pin disconnect
of the rechargeable 3 to 5cell Lithium-ion or Lithium-polymer battery can be detected. By using cascade
connection, it is also possible to protect 6 or more cells rechargeable Lithium-ion battery. And the regulator
can be constructed by using external Nch MOS FET. The internal circuit of IC is composed by the voltage
detector, the reference voltage source, delay time control circuit, and the logical circuit, etc.
(Unless otherwise specified, Topr=+25°C)
Features
(1) Range and accuracy of detection/release voltage
Overcharge detection voltage
3.6V to 4.5V, 5mV steps
3.4V to 4.5V, 5ꢀmV steps
±.ꢀV to 3.ꢀV, 5ꢀmV steps
±.ꢀV to 3.ꢀV, 5ꢀmV steps
Accuracy±±5mV (Topr=±ꢀ to ꢁ5ꢀ0C)
Accuracy±5ꢀmV
Overcharge release voltage
Overdischarge detection voltage
Overdischarge release voltage (Note4)
Accuracy±ꢂꢀmV
Accuracy±1ꢀꢀmV
Discharging overcurrent detection voltage 1 3ꢀmV to 3ꢀꢀmV, 5mV steps
Discharging overcurrent detection voltage ± Twice or 4 times of
discharging overcurrent 1 (Note1)
Accuracy±15mV (typ 5ꢀmVꢃ)
Accuracy±15ꢄ
Short detection voltage
4 or ꢂ times of
Accuracy±1ꢀꢀmV
discharging overcurrent 1 (Note1)
−3ꢀꢀmV to −±ꢀmV, 5mV steps
3.6V to 4.5V, 5mV steps
Charging overcurrent detect voltage
Cell balance detection voltage
Accuracy±1ꢀmV
Accuracy±3ꢀmV (Topr=±ꢀ to ꢁ5ꢀ0C)
(±) Range of detection delay time
Overcharge detection delay time
Overcharge release delay time
Selection from ꢀ.±5s, 1.ꢀs, 1.±s, 4.1s
Accuracy±±5ꢄ
Selection from 1ꢀms, ±4ms, 4ꢂms, 1ꢀꢀms
Selection from ꢀ.±5s, 1.ꢀs, 1.±s, 4.1s
Selection from 4ms, ꢂms, 1±ms, ±4ms
Accuracy±±5ꢄ
Accuracy±±5ꢄ
Accuracy±±5ꢄ
Accuracy±3ꢀꢄ
Accuracy±3ꢀꢄ
Accuracy±5ꢀꢄ
Accuracy±3ꢀꢄ
Accuracy±3ꢀꢄ
Accuracy±3ꢀꢄ
Accuracy±±5ꢄ
Accuracy±±5ꢄ
Accuracy±±5ꢄ
Accuracy±±5ꢄ
Overdischarge detection delay time
Overdischarge release delay time
Discharging overcurrent detection delay time1 Setting by a capacitor of COC pin. (Note±)
Discharging overcurrent detection delay time± Setting by a capacitor of COC pin. (Note±)
Short detection delay time
Selection from 1ꢀꢀµs, ±ꢀꢀµs, 3ꢀꢀµs
Setting by a capacitor of COC pin. (Note±)
Setting by a capacitor of COC pin. (Note±)
Setting by a capacitor of COC pin. (Note±)
Selection from ±5ms, 5ꢀms, 1ꢀꢀms
Selection from 1ꢀ±4ms, ±ꢀ4ꢂms, 4ꢀ96ms
Selection from ꢀ.1s, ꢀ.±5s, ꢀ.5s (Note3)
Selection from 4ms, ꢂms, 1±ms
Discharging overcurrent release delay time
Charging overcurrent detection delay time
Charging overcurrent release delay time
Disconnect detection delay time
Disconnect release delay time
Cell balance detection delay time
Cell balance release delay time
Note1 : Optional function
Note± : Since the capacity is the same, each delay times will change when a value is changed without short
detection delay time.
Note3 : Cannot do shorter than disconnect detection delay time.
Note4 : The discharge state release method can choose a voltage release and a load open.
• Any products mentioned in this catalog are subject to any modification in their appearance and others for improvements without prior notification.
• The details listed here are not a guarantee of the individual products at the time of ordering. When using the products, you will be asked to check their specifications.
MITSUMI
3 to 5cells Li-ion/Li-polymer battery protection IC MM3575 Series
(3) Protected operation can be detectof V5ꢃV1 pin disconnection
When any of V5 to V1 pin open, it will detect disconnection and charge and discharge prohibited state.
Protection mode of disconnection can be chosen from three, prohibition of charge, prohibition of discharge
and prohibition of charge and discharge (Optional)
The release from disconnection protection is done by disconnection point being connected.
(4) The setting for three cell, for four cell, and for five cell protection can be set with the SEL pin.
(5) The charge and discharge of the battery can be controlled with SDC pin and SOC pin.
(6) ꢀV battery charge function
Selection from "Prohibition" or "Permission"
(7) Power save mode built-in
It is possible to make it shift to low consumption current mode arbitrarily.
Transition of power save mode is used by SDC,SOC pins.
It shifts to a power save mode by making SDC and SOC pin into a VSS level.
(ꢂ) Regulator function built-in
Connecting drain of external Nch MOS FET gate to DRIVE pin and source to REG_IN pin, it can operate as a regulator.
The regulator operates independently with protected operation, such as overcharge detection.
Regulator voltage can be chosen at ꢀ.1V step among 3.3V to 5.ꢀV.
(9) Low current consumption
VDD pin current consumption (Vcell=4.3V)
Typ. ±5.ꢀµA, Max. 35.ꢀµA
Typ. ±ꢀ.ꢀµA, Max. 3ꢀ.ꢀµA
Typ. 1ꢀ.ꢀµA, Max. 15.ꢀµA
Typ. 1±.ꢀµA, Max. 16.ꢀµA
Typ. 4.ꢀµA, Max. 6.ꢀµA
Typ. 4.ꢀµA, Max. 6.ꢀµA
Typ. ±.ꢀµA, Max. 3.ꢀµA
Typ. 1.ꢀµA, Max. 1.5µA
Max. ꢀ.ꢀ5µA
VDD pin current consumption (Vcell=3.5V)
VDD pin current consumption (Vcell=±.ꢀV)
VDD pin current consumption at power save1 (Vcell=3.5V)
VDD pin current consumption at power save± (Vcell=3.5V)
V5 pin current consumption (Vcell=4.3V)
V5 pin current consumption (Vcell=3.5V)
V5 pin current consumption (Vcell=±.ꢀV)
V5 pin current consumption at power save (Vcell=3.5V)
(1ꢀ) Input current
V4 pin input current (Vcell=3.5V)
V3 pin input current (Vcell=3.5V)
V± pin input current (Vcell=3.5V)
V1 pin input current (Vcell=3.5V)
Max. 1.ꢀµA
Max. 1.ꢀµA
Max. 1.ꢀµA
Max. 1.ꢀµA
(11) Absolute maximum ratings
VDD, CS1, CS± pin
VSS−ꢀ.3V to VSSꢁ3ꢀV
V4−ꢀ.3V to VDDꢁꢀ.3V
−ꢀ.3V to ꢁ1ꢀV
V5 pin
Voltage between the input terminals
OV, VM1, VM± pin
VDD−3ꢀV to VDDꢁꢀ.3V
Vn-1−ꢀ.3V to VDDꢁꢀ.3V
VSS−ꢀ.3V to VDDꢁꢀ.3V
VSS−ꢀ.3V to VDDꢁꢀ.3V
−55 to ꢁ1±50C
OUT1 to 5 pin
DCHG, SEL, SDC, SOC pin
DRIVE, REG_IN pin
Storage temperature
(1±) Recommended operating conditions
Operation temperature
−4ꢀ to ꢁꢂ50C
Supply Voltage
VSSꢁ3.5V to ꢁ±±.5V
• Any products mentioned in this catalog are subject to any modification in their appearance and others for improvements without prior notification.
• The details listed here are not a guarantee of the individual products at the time of ordering. When using the products, you will be asked to check their specifications.
MITSUMI
3 to 5cells Li-ion/Li-polymer battery protection IC MM3575 Series
Pin Assignment
Top view
Pin No.
Function
VSOP-24A
1
2
The input terminal of the power supply of IC.
The control terminal of output over charge detection.
ISOC<ISOCL OV=High impedance
The control terminal of output over discharge detection.
ISDC<ISDCL DCHG=Low
Input terminal connected to charger negative voltage.
Detected charger connection.
Charge control output terminal. Output type is Pch open drain.
Normal mode ”High” Overcharge mode ”High impedance”
Input terminal connected to discharge voltage.
Detected load connection.
3
4
5
6
7
Discharge control output terminal. Output type is CMOS.
Normal mode ”High” Overdischarge mode ”Low”
A terminal which sets delay time of discharging overcurrent and
charging overcurrent detection/release. It is able to set delay time by
connecting a condenser between VDD and COC terminals.
Input of overcurrent detection. Detected overcurrent by sense resistor
between CS1 pin and CS2 pin. And then the DCHG terminal outputs low
level, and it protects from large current discharging.
Common terminal of overcurrent detection circuit.
The drive terminal of FET for regulator.
Connect to gate of FET
The input terminal of regulator voltage.
Connect to source of FET
This pin is for changing function for 3cell in series or 4cell in series , 5cell in series.
Connect VSS 5cells in series Connect V2 4cells in series Connect VDD 3cells in series
The input terminal of the negative voltage of V1 cell.
The input terminal of the ground of IC.
V1 cell balance control output terminal. Output type is CMOS.
Normal mode ”Low” Cell balance detect mode ”High”
The input terminal of the positive voltage of V1 cell, and the negative
voltage of V2 cell.
V2 cell balance control output terminal. Output type is CMOS.
Normal mode ”Low” Cell balance detect mode ”High”
The input terminal of the positive voltage of V2 cell, and the negative
voltage of V3 cell.
V3 cell balance control output terminal. Output type is CMOS.
Normal mode ”Low” Cell balance detect mode ”High”
The input terminal of the positive voltage of V3 cell, and the negative
voltage of V4 cell.
V4 cell balance control output terminal. Output type is CMOS.
Normal mode ”Low” Cell balance detect mode ”High”
8
9
VDD
SOC
1
±
±4
±3
±±
±1
±ꢀ
19
1ꢂ
17
16
15
14
13
V5
OUT5
V4
SDC
3
VM±
4
OUT4
V3
OV
5
VM1
6
OUT3
V±
10
11
DCHG
COC
CS1
7
OUT±
V1
ꢂ
9
CS±
1ꢀ
11
1±
OUT1
VSS
SEL
DRIVE
REG_IN
12
13
14
15
16
17
18
19
20
21
22
The input terminal of the positive voltage of V4 cell, and the negative
voltage of V5 cell.
V5 cell balance control output terminal. Output type is CMOS.
Normal mode ”Low” Cell balance detect mode ”High”
The input terminal of the positive voltage of V5 cell.
23
24
• Any products mentioned in this catalog are subject to any modification in their appearance and others for improvements without prior notification.
• The details listed here are not a guarantee of the individual products at the time of ordering. When using the products, you will be asked to check their specifications.
MITSUMI
3 to 5cells Li-ion/Li-polymer battery protection IC MM3575 Series
Selection Guide
Detection voltage /Release voltage
0V battery
Protection mode
charge
Product name
(MM3575***WBH)
of disconnection
function
VDET1
VREL1
VDET2
VREL2
VDET3-1
VDET3-2
VSHORT
VDET4
VDET_CB
Prohibition of charge
and discharge
MM3575A02WBH
MM3575A08WBH
4.250
4.250
4.175
2.800
2.900
0.100
0.200
0.400
–0.020
4.180
Prohibition
Prohibition
Prohibition of charge
and discharge
4.100
2.600
3.200
0.090
0.180
0.360
–0.030
4.180
Detection / Release delay time
Product name
(MM3575***WBH)
tVDET1
1.0
tVREL1
100
tVDET2
tVREL2
tVDET3-1 tVDET3-2
tVREL3
4.0
tSHORT
200
tVDET4
1024
100
tVREL4
tVDET5
200
tVREL5 tVDET CB tVREL_CB
MM3575A02WBH
MM3575A08WBH
1.0
2.0
4.0
4.0
10.0
2.0
128
128
4096
4096
256
256
8.0
8.0
1.0
100
1536
60.0
4.0
200
200
Please inquire to us, if you request a rank other than the above.
• Any products mentioned in this catalog are subject to any modification in their appearance and others for improvements without prior notification.
• The details listed here are not a guarantee of the individual products at the time of ordering. When using the products, you will be asked to check their specifications.
MITSUMI
3 to 5cells Li-ion/Li-polymer battery protection IC MM3575 Series
Application Circuit
· 5 cells protection circuit.
CELLꢁ
Packꢁ
SC Protector
R
VDD
1ꢀꢀ
R
SOC
1M
R
V5
1k
±4 V5
VDD
SOC
SDC
VM±
OV
1
±
3
4
5
6
7
ꢂ
9
D1
R
1ꢀꢀOGk5
R
OUT5
±3 OUT5
±± V4
V5
V4
V3
V±
V1
R
V4
R
SDC
RREG±
QOUT5
1k
1M
1ꢀꢀ
Q6
D
G
R
1ꢀꢀOGk4
ROUT4
S
±1 OUT4
±ꢀ V3
R
V3
R
VM±
QOUT4
1k
±.±k
Q5
D
G
R
VM1
R
1ꢀꢀOGk3
ROUT3
1ꢀꢀk
S
19 OUT3
1ꢂ V±
VM1
DCHG
COC
CS1
R
V±
QOUT3
1k
1ꢀꢀOGk±
R
ROUT±
C
ꢀ.ꢀOꢀO1CµF
17 OUT±
16 V1
R
V1
QOUT±
1k
D±
1ꢀꢀOGk±
R
ROUT1
15 OUT1
14 VSS
13 SEL
CS± 1ꢀ
DRIVE 11
TH
QOUT1
D
Q4
C
REG3
R
CS±
1k
R
CS1
1k
R
DG1
1ꢀꢀ
RDG±
G
REG
C
V5
1µF
C
V3
1µF
CV1
1ꢀꢀ
S
Thermistor
1µF
REG_IN 1±
R
REG1
C
VDD
1ꢀµF
C
V4
1µF
CV±
D3
C
±.R±EµGF1
1.RꢀEµGF±
C
Q1
1µF
R
SEL
1k
ROV1
DCHG-
3M
R
SENSE
5M
CELL-
Q±
Q3
D
±nd
Protection
G
S
CHG-
Explanation of external parts
Parts name
Roles of parts
RVDD · RV5 · RV4 · RV3 · RV2 · RV1
CVDD · CV5 · CV4 · CV3 · CV2 · CV1
CR low-pass filter to stabilize a supply ripple of VDD pin · V5pin ·
V4pin · V3pin · V2pin · V1pin.
ROUT1 · ROUT2 · ROUT3 · ROUT4 · ROUT5 Resistance of discharging during cell balance control.
RSEL · RCS1 · RCS2 · RVM1 · RVM2
Resistor to protect terminal.
Current limitation resistor. (The voltage signal is converted into the
current signal by this resistor at the cascading connection. )
RSDC · RSOC
Capacitor to sets discharging overcurrent, charging overcurrent
detection/release dead time.
CCOC
RSENSE
RDG1 · RDG2
ROV1
Sense resistance to observe charging/discharging current.
Resistor for preventing the gate destruction due to parasitic oscillation.
Pulldown resistance of OV pin.
RREG1
RREG2
CREG1
CREG2
Resistance of regulator for phase compensation.
Resistance of current control when Q4 shorted out.
Capacity of regulator for phase compensation.
Capacitor to stabilize drain electric potential of Q4.
Diode for preventing backflow from regulator.
D1
Diode for preventing voltage more than VDD pin voltage from applying
to OV pin.
D2
Q1 · Q2
Q3
Q4
Nch MOS FET to control discharging current.
Nch MOS FET to control charging current.
Power transistor of regulator.
FET for preventing voltage more than VDD pin voltage from applying
to VM1 pin.
FET for preventing voltage more than VDD pin voltage from applying
to VM2 pin.
Q5
Q6
QOUT1 · QOUT2 · QOUT3 · QOUT4 · QOUT5 FET for controling discharging switch during cell balance control.
• Any products mentioned in this catalog are subject to any modification in their appearance and others for improvements without prior notification.
• The details listed here are not a guarantee of the individual products at the time of ordering. When using the products, you will be asked to check their specifications.
MITSUMI
3 to 5cells Li-ion/Li-polymer battery protection IC MM3575 Series
· 10 cells protection circuit
CELLꢁ
RVDD±1ꢀꢀ
MM3575(±)
R
V1ꢀ
1k
R
SOC±
1M
±4 V5
VDD 1
SOC ±
SDC 3
1ꢀOꢀGk1ꢀ
R
ROUT1ꢀ
±3 OUT5
±± V4
V1ꢀ
V9
R
SDC±
1M
R
V9
Q
OUT1ꢀ
1k
R
OG9
1ꢀꢀk
R
OUT9
±1 OUT4
±ꢀ V3
VM± 4
Q
OUT9
RVꢂ
1k
OV 5
R
OGꢂ
1ꢀꢀk
R
OUTꢂ
R
SOC1
4.7M
Vꢂ
19 OUT3
1ꢂ V±
VM1 6
R
V7
Q
OUTꢂ
1k
DCHG 7
COC ꢂ
CS1 9
R
OG7
1ꢀꢀk
ROUT7
D3
17 OUT±
16 V1
V7
V6
Q
OUT7
RV6
1k
R
SDC1
4.7M
R
OG6
1ꢀꢀk
ROUT6
D1
15 OUT1
14 VSS
13 SEL
CS± 1ꢀ
DRIVE 11
REG_IN 1±
Q
OUT6
RREG3
C
V1ꢀ
1µF
C
Vꢂ
1µF
CV6
1ꢀꢀ
1µF
C
VDD±
1ꢀµF
C
V9
1µF
CV7
1µF
R
REG4 Q7
R
1kSEL±
R
GND
1k
D
S
1k
R
VM±-±
±ꢀꢀk
G
RVDD11ꢀꢀ
MM3575(1)
VDD 1
R
V5
1k
±4 V5
R
OG5
1ꢀꢀk
ROUT5
±3 OUT5
±± V4
SOC ±
SDC 3
V5
V4
V3
V±
V1
R
V4
Q
OUT5
1k
Q6
D
G
R
OG4
1ꢀꢀk
ROUT4
S
±1 OUT4
±ꢀ V3
VM± 4
R
V3
Q
OUT4
R
VM±
±.±k
1k
OV 5
G
Q5
D
R
VM1
R
OG3
1ꢀꢀk
ROUT3
1ꢀꢀk
S
19 OUT3
1ꢂ V±
VM1 6
R
V±
Q
OUT3
1k
DCHG 7
COC ꢂ
CS1 9
R
OG±
1ꢀꢀk
ꢀ.ꢀCꢀO1Cµ1F
C
ROUT±
R
REG±
1ꢀꢀ
17 OUT±
16 V1
R
V1
Q
OUT±
1k
D±
R
OG1
1ꢀꢀk
ROUT1
15 OUT1
14 VSS
13 SEL
CS± 1ꢀ
Q
OUT1
D
S
C
REG3
R
CS±
1k
R
CS1
1k
R
DG1
RDG±
DRIVE 11
REG_IN 1±
G
Q4
1ꢀꢀ
1ꢀꢀ
C
V5
1µF
C
V3
1µF
C
V1
1µF
REG
R
SEL1
1k
R
REG1
C
VDD1
1ꢀµF
C
V4
1µF
CV±
C
1.RꢀEµGF±
D4
1µF
R
SEL1
1k
Q1
±.R±EµGF1
C
R
OV1
DCHG-
3M
RSENSE
5m
CELL-
Q±
Q3
CHG-
• Any products mentioned in this catalog are subject to any modification in their appearance and others for improvements without prior notification.
• The details listed here are not a guarantee of the individual products at the time of ordering. When using the products, you will be asked to check their specifications.
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