UB211C [UTC]
1-CELL LITHIUM-ION/POLYMER BATTERY PROTECTION IC; 1节锂离子/聚合物电池保护IC型号: | UB211C |
厂家: | Unisonic Technologies |
描述: | 1-CELL LITHIUM-ION/POLYMER BATTERY PROTECTION IC |
文件: | 总10页 (文件大小:191K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
UNISONIC TECHNOLOGIES CO., LTD
UB211C
Preliminary
CMOS IC
1-CELL LITHIUM-ION/POLYMER
BATTERY PROTECTION IC
DESCRIPTION
UTC UB211C is a series of lithium-ion / lithium-polymer
rechargeable battery protection ICs incorporating high accuracy
voltage detection circuits and delay circuits.
UTC UB211C is suitable for protection of single cell lithium-ion /
lithium polymer battery packs from overcharge, over discharge and
over current.
The ultra-small package and less requirement of external
components make it ideal to integrate the UTC UB211C into the
limited space of battery pack.
FEATURES
* Wide Supply Voltage Range: VDD=1.5V~8.0V
* Ultra-Low Quiescent Current: IOPE=3.0μA (VDD=3.5V)
* Ultra-Low Power-Down Current: IPDN=0.2μA (VDD=1.5V)
* Overcharge Detection Voltage: VCU=3.9V~4.4V
* Overcharge Release Voltage: VCL=3.8V~4.4V
* Over Discharge Release Voltage: VDL=2.0V~3.0V
* Over Discharge Release Voltage: VDU=2.0V~3.4V
* Discharge Over Current Detection Voltage: VDOIV=0.05V~0.30V
* Discharge Short Circuit Detection Voltage: VSHORT=0.5V (Fixed)
* Charge Over Current Voltage: VCOIV=-0.1V (Fixed)
* Charger Detection Voltage: VCHA=-0.7V (Fixed)
* Delay Times are Generated by an Internal Circuit. (External Capacitors are Unnecessary.)
ORDERING INFORMATION
Ordering Number
Lead Free
Package
SOT-25
Packing
Tape Reel
Halogen Free
UB211CxxG-AF5-R
UB211CxxL-AF5-R
Note: xx: Output Voltage, refer to Marking Information.
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UB211C
Preliminary
CMOS IC
MARKING INFORMATION
PACKAGE
VOLTAGE CODE (Note)
MARKING
5
4
3
G:Halogen Free
AA
B2CXX□
SOT-25
L: Lead Free
Voltage Code
1
2
Note: Refer to Serial Code List
SERIAL CODE LIST
Overcharge
Overcharge
Release
Voltage
Over discharge
Detection
Voltage
Over discharge
Release
Over Current
Detection
Voltage
Detection
Voltage
[VCU](V)
Model
Code
AA
Voltage
[VDU](V)
[VCL](V)
[VDL](V)
[VDIOV](V)
UB211C
4.200
4.100
2.800
2.900
0.150
PIN CONFIGURATION
PIN DESCRIPTION
PIN NO.
PIN NAME
VM
DESCRIPTION
1
2
3
4
5
For current sense and charger detection input pin
Positive power input
VDD
VSS
Negative power input
DO
For discharge control: FET gate connection pin
For charge control: FET gate connection pin
CO
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UB211C
Preliminary
CMOS IC
BLOCK DIAGRAM
0V Battery Charge
Inhibition Detector
VDD
VM
Oscillator
Charge
Charger Detector
Over current Detector
Divider
Overdischarge
Detector
Discharge
Short circuit Detector
Control
Logic
VM
Overcharge
Detector
Discharge
Over current Detector
VSS
DO
CO
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UB211C
Preliminary
CMOS IC
ABSOLUTE MAXIMUM RATING (VSS=0V, TA=25°С unless otherwise specified)
PARAMETER
SYMBOL
VDD
RATINGS
VSS-0.3 ~ VSS+12
VDD-12 ~ VDD+0.3
VSS-0.3 ~ VDD+0.3
VDD-14 ~ VDD+0.3
-40 ~ +85
UNIT
V
Input Voltage Between VDD and VSS (Note2)
CO Output Pin Voltage
VCO
V
DO Output Pin Voltage
VDO
V
VM Input Pin Voltage
VM
V
Ambient Operating Temperature
Storage Temperature
TOPR
TSTG
°С
°С
-55 ~ +125
Note: 1. Absolute maximum ratings are those values beyond which the device could be permanently damaged.
Absolute maximum ratings are stress ratings only and functional device operation is not implied.
2. Pulse (μsec) noise exceeding the above input voltage (VSS+12V) may cause damage to the IC.
ELECTRICAL CHARACTERISTICS (VSS=0V, Ta=25°С unless otherwise specified)
PARAMETER
SYMBOL
TEST CONDITIONS
MIN
TYP
MAX
UNIT
CURRENT CONSEMPTION
Supply Current
IOPE VDD=3.5V, VM=0V
3.0
0.2
8.0
0.5
μA
μA
Power-Down Current
IPDN VDD=VM=1.5V
OPERATING VOLTAGE
Operating Voltage Between VDD-pin and
VDS1
VDS2
1.5
1.5
8
V
V
VSS-pin
Operating Voltage Between VDD-pin and
VM-pin
10
DETECTION VOLTAGE
Overcharge Detection Voltage
VCU
VCU-0.040 VCU VCU+0.040
VCL-0.050 VCL VCL+0.050
VCL-0.040 VCL VCL+0.040
VDL-0.080 VDL VDL+0.080
VDU-0.100 VDU VDU+0.100
VDU-0.080 VDU VDU+0.080
VDIOV-0.03 VDIOV VDIOV+0.03
V
V
V
V
V
V
V
V
V
V
VCL≠VCU
VCL
Overcharge Release Voltage
Overdischarge Detection Voltage
Overdischarge Release Voltage
VCL=VCU
VDL
VDU≠VDL
VDU
VDU=VDL
Discharge Over Current Detection Voltage
Discharge Short Circuit Detection Voltage
VDIOV VDD=3.0V
VSHORT VDD=3.0V
0..30
-0.18
-1.2
0.50
-0.10
-0.7
0.70
-0.02
-0.2
Charge Over Current Detection Voltage VCIOV
Charger Detection Voltage
0V BATTERY CHARGE VOLTAGE
0V Battery Charge Inhibition Battery Voltage
INTERNAL RESISTANCE
Resistance between VM-pin and VSS-pin
Resistance between VM-pin and VDD-pin
OUTPUT RESISTANCE
CO-pin Resistance “H”
VCHA VDU≠VDL
V0INH
1.8
V
RVMD VDD=1.8V, VM=0V
RVMD VDD=3.5V, VM=1.0V
100
10
300
30
900
70
kΩ
kΩ
RCOH VCO=3.0V, VDD=3.5V, VM=0V
RCOL VCO=0.5V, VDD=4.5V, VM=0V
RDOH VDO=3.0V, VDD=3.5V, VM=0V
RDOL VDO=0.5V, VDD=VM=1.8V
5
5
5
5
10
10
10
10
kΩ
kΩ
kΩ
kΩ
CO-pin Resistance “L”
DO-pin Resistance “H”
DO-pin Resistance “L”
DELAY TIME
Overcharge Detection Delay Time
Overdischarge Detection Delay Time
Discharge Over Current Detection
Delay Time
tCU
tDL
0.9
1.2
1.5
s
110
150
190
ms
tDIOV VDD=3.0V
tSHORT VDD=3.0V
tCIOV
6
120
6
9
300
9
12
380
12
ms
µs
Discharge Short Circuit Detection Delay
Time
Charge Over Current Detection Delay
Time
ms
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UB211C
Preliminary
CMOS IC
OPERATION
1. Normal Condition
This IC monitors the voltage of the battery connected between the VDD pin and VSS pin and the voltage
difference between the VM pin and VSS pin to control charging and discharging. When the battery voltage is in the
range from overdischarge detection voltage (VDL) to overcharge detection voltage (VCU), and the VM pin voltage is in
the range from the charge overcurrent detection voltage (VCIOV) to discharge overcurrent detection voltage (VDIOV),
the IC turns both the charging and discharging control FETs on. This condition is called the normal conditon, and in
this condition charging and discharging can be carried out freely.
The resistance (RVMD) between the VM pin and VDD pin, and the resistance (RVMS) between the VM pin and VSS
pin are not connected in the normal status.
Note: When the battery is connected for the first time, discharging may not be enabled. In this case, short the VM pin
and VSS pin or connect the charger to restore the normal condition.
2. Overcharge Condition
When the battery voltage becomes higher than overcharge detection voltage (VCU) during charging in the
normal condition and this state continues for the overcharge detection delay time (tCU), the UTC UB211C Series
turns the charging control FET off to stop charging. This state is called the overcharge condition.
The resistance (RVMD) between the VM pin and VDD pin, and the resistance (RVMS) between the VM pin and VSS
pin are not connected in the overcharge condition.The overcharge condition is released in the following two cases.
(1) When the VM pin voltage is higher than or equal to the charge overcurrent detection voltage (VCIOV), and is
lower than the discharge overcurrent detection voltage (VDIOV), UTC UB211C Series releases the overcharge status
when the battery voltage falls below the overcharge release voltage (VCL).
(2) When the VM pin voltage is higher than or equal to the discharge overcurrent detection voltage (VDIOV), UTC
UB211C Series releases the overcharge condition when the battery voltage falls below the overcharge detection
voltage (VCU).
The discharge is started by connecting a load after the overcharge detection, the VM pin voltage rises more
than the voltage at VSS pin, because the discharge current flows through the charging control FET. If this VM pin
voltage is higher than or equal to the discharge overcurrent detection voltage (VDIOV), UTC UB211C Series releases
the overcharge status when the battery voltage is lower than or equal to the overcharge detection voltage (VCU).
For the actual application boards, changing the battery voltage and the charger voltage simultaneously enables
to measure the overcharge release voltage (VCL). In this case, the charger is always necessary to have the
equivalent voltage level to the battery voltage. The charger keeps VM pin voltage higher than or equal to the charge
overcurrent detection voltage (VCIOV) and lower than or equal to the discharge overcurrent detection voltage (VDIOV).
UTC UB211C Series releases the overcharge status when the battery voltage falls below the overcharge release
voltage (VCL).
Note 1. If the battery is charged to a voltage higher than overcharge detection voltage (VCU) and the battery voltage
does not fall below overcharge detection voltage (VCU) even when a heavy load is connected, discharge
overcurrent detection and load short-circuiting detection do not function until the battery voltage falls below
overcharge detection voltage (VCU). Since an actual battery has an internal impedance of tens of mꢀ, the
battery voltage drops immediately after a heavy load that causes overcurrent is connected, and discharge
overcurrent detection and load shortcircuiting detection function.
Note 2. When a charger is connected after overcharge detection, the overcharge status is not released even if the
battery voltage is below overcharge release voltage (VCL). The overcharge status is released when the VM
pin voltage goes over the charge overcurrent detection voltage (VCIOV) by removing the charger.
3. Overdischarge Condition
When the battery voltage falls below overdischarge detection voltage (VDL) during discharging in the normal
status and the detection continues for the overdischarge detection delay time (tDL) or longer, the UTC UB211C
Series turns the discharging control FET off to stop discharging. This condition is called the overdischarge status.
Under the overdischarge status, the VM pin voltage is pulled up by the resistor between the VM pin and VDD pin in
the IC (RVMD). When voltage difference between the VM pin and VDD pin then is 1.3 V (Typ.) or lower, the current
consumption is reduced to the power-down current consumption (IPDN). This condition is called the power-down
status. The resistance (RVMS) between the VM pin and VSS pin is not connected in the power-down status and the
overdischarge status.
The power-down status is released when a charger is connected and the voltage difference between the VM pin
and VDD pin becomes 1.3 V (typ.) or higher.
When a battery in the overdischarge condition is connected to a charger and provided that the VM pin voltage is
lower than -0.7 V (Typ.), the UTC UB211C Series releases the overdischarge status and turns the discharging FET
on when the battery voltage reaches overdischarge detection voltage (VDL) or higher.
When a battery in the overdischarge status is connected to a charger and provided that the VM pin voltage is
not lower than -0.7 V (Typ.), the UTC UB211C Series releases the overdischarge status when the battery voltage
reaches overdischarge release voltage (VDU) or higher.
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UB211C
Preliminary
CMOS IC
OPERATION (Cont.)
4. Discharge Overcurrent Condition (Discharge Overcurrent, Load Short-circuiting)
When a battery in the normal condition is in the status where the voltage of the VM pin is equal to or higher than
the discharge overcurrent detection voltage because the discharge current is higher than the specified value and the
status lasts for the discharge overcurrent detection delay time, the discharge control FET is turned off and
discharging is stopped. This status is called the discharge overcurrent condition.
In the discharge overcurrent condition, the VM pin and VSS pin are shorted by the resistor between VM pin and
VSS pin (RVMS) in the IC. However, the voltage of the VM pin is at the VDD potential due to the load as long as the load
is connected. When the load is disconnected, the VM pin returns to the VSS potential.
This IC detects the condition when the impedance between the EB+ pin and EB− pin (Refer to the typical
application circuit) increases and is equal to the impedance that enables automatic restoration and the voltage at
the VM pin returns to discharge overcurrent detection voltage (VDIOV) or lower, the discharge overcurrent condition is
restored to the normal condition.
Even if the connected impedance is smaller than automatic restoration level, the UTC UB211C Series will be
restored to the normal status from discharge overcurrent detection status when the voltage at the VM pin becomes
the discharge overcurrent detection voltage (VDIOV) or lower by connecting the charger.
The resistance (RVMD) between the VM pin and VDD pin is not connected in the discharge overcurrent detection
condition.
5. Charge Overcurrent Condition
When a battery in the normal status is in the status where the voltage of the VM pin is lower than the charge
overcurrent detection voltage because the charge current is higher than the specified value and the status lasts for
the charge overcurrent detection delay time, the charge control FET is turned off and charging is stopped. This
status is called the charge overcurrent status.
This IC will be restored to the normal status from the charge overcurrent status when, the voltage at the VM pin
returns to charge overcurrent detection voltage (VCIOV) or higher by removing the charger.
The charge overcurrent detection function does not work in the overdischarge status.
The resistance (RVMD) between the VM pin and VDD pin, and the resistance (RVMS) between the VM pin and
VSS pin are not connected in the charge overcurrent status.
6. 0 V Battery Charging Function “Unavailable”
This function inhibits recharging when a battery that is internally short-circuited (0 V battery) is connected.
When the battery voltage is the 0 V battery charge inhibition battery voltage (V0INH) or lower, the charging control
FET gate is fixed to the EB− pin (Refer to the typical application circuit) voltage to inhibit charging. When the
battery voltage is the 0 V battery charge inhibition battery voltage (V0INH) or higher, charging can be performed.
Caution Some battery providers do not recommend charging for a completely self-discharged battery. Please
ask the battery provider to determine whether to enable or inhibit the 0 V battery charging function.
7. Delay Circuit
(1) The discharge overcurrent detection delay time (tDIOV) and the load short-circuiting detection delay time
(tSHORT) start when the discharge overcurrent detection voltage (VDIOV) is detected. When the load shortcircuiting
detection voltage (VSHORT) is detected over the load short-circuiting detection delay time (tSHORT) after the detection of
discharge overcurrent detection voltage (VDIOV), the UTC UB211C turns the discharging control FET off within tSHORT
from the time of detecting VSHORT
.
(2) When any overcurrent is detected and the overcurrent continues for longer than the overdischarge detection
delay time (tDL) without the load being released, the status changes to the power-down status at the point where the
battery voltage falls below overdischarge detection voltage (VDL).
(3) When the battery voltage falls below overdischarge detection voltage (VDL) due to overcurrent, the UTC
UB211C Series turns the discharging control FET off via overcurrent detection. In this case, if the recovery of the
battery voltage is so slow that the battery voltage after the overdischarge detection delay time is still lower than the
overdischarge detection voltage, UTC UB211C Series shifts to the power-down status.
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UB211C
Preliminary
CMOS IC
TIMING CHART
(1) Overcharge Detection, Overdischarge Detection
Charger
Load
VCU
VCL
VDU
VDL
VDD
VSS
VDD
VSS
VDD
VSHORT
VDIOV
VSS
VCIOV
VCHA
tCU
tDL
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UB211C
Preliminary
CMOS IC
TIMING CHART (Cont.)
(2) Discharge Overcurrent Detection
Charger
Load
VCU
VCL
VDU
VDL
VDD
VSS
VDD
VSS
VDD
VSHORT
VDIOV
VSS
VCIOV
VCHA
tDIOV
tSHORT
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UB211C
Preliminary
CMOS IC
TIMING CHART (Cont.)
(3) Charge Overcurrent Detection
Charger
Load
VCU
VCL
VDU
VDL
VDD
VSS
VDD
VSS
VDD
VSHORT
VDIOV
VSS
VCIOV
VCHA
tDL
tCIOV
tDL
tCIVO
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UB211C
Preliminary
CMOS IC
TYPICAL APPLICATION CIRCUIT
EB+
R1=100~470Ω
VDD
UB211C
Battery
C1=0.1µF
VM
VSS
DO
CO
R2=1kΩ
M1
M2
EB-
Note 1. Overdischarge detection voltage must be higher than the threshold voltage of M1 and M2, if not, the M1 may
not cut the charging current. If the threshold voltage of M1 equal to or higher than the overdischarge
detection voltage is used, discharging may be stopped before overdischarge is detected.
2. Charger voltage must be higher than the withstanding voltage between the gate and source of M1 and M2, if
not, M1 and M2 may be destroyed.
3. Resistance of R1 can’t be high, the value is about from 100ꢀ to 470ꢀ, If R1 has a high resistance, the
voltage between VDD pin and VSS pin may exceed the absolute maximum rating when a charger is
connected in reverse since the current flows from the charger to the IC. Insert a resistor of 100ꢀ or higher as
R1 for ESD protection
4. the capacitance of C1 must not be less than 0.022μF, if not, DO pin may oscillate when load short-circuiting
is detected. Be sure to connect a capacitor of 0.022μF or higher to C1, the typical value is about 0.1μF.
5. the resistance of R2 can not be higher than 2kꢀ, if not, the charging current may not be cut when a
high-voltage charger is connected.
UTC assumes no responsibility for equipment failures that result from using products at values that
exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or
other parameters) listed in products specifications of any and all UTC products described or contained
herein. UTC products are not designed for use in life support appliances, devices or systems where
malfunction of these products can be reasonably expected to result in personal injury. Reproduction in
whole or in part is prohibited without the prior written consent of the copyright owner. The information
presented in this document does not form part of any quotation or contract, is believed to be accurate
and reliable and may be changed without notice.
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