UB262 [UTC]
1-CELL LITHIUM-ION/POLYMER BATTERY PROTECTION IC;
| 型号: | UB262 |
| 厂家: | 
Unisonic Technologies |
| 描述: | 1-CELL LITHIUM-ION/POLYMER BATTERY PROTECTION IC |
| 文件: | 总10页 (文件大小:209K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
UNISONIC TECHNOLOGIES CO., LTD
UB262
Preliminary
CMOS IC
1-CELL LITHIUM-ION/POLYMER
BATTERY PROTECTION IC
4
DESCRIPTION
5
6
The UTC UB262 is a series of lithium-ion / lithium-polymer
rechargeable battery protection ICs incorporating high accuracy
voltage detection circuits and delay circuits.
3
2
1
The UTC UB262 is suitable for protection of single cell lithium-ion /
lithium polymer battery packs from overcharge, over discharge and
over current.
SOT-26
The ultra-small package and less required external components
make it ideal to integrate the UTC UB262 into the limited space of
battery pack.
FEATURES
* High-accuracy voltage detection circuit
Overcharge detection voltage: 4.250~4.350V, Accuracy: ±50Mv
Overcharge release voltage: 4.050~4.150V, Accuracy: ±50mV
Overdischarge detection voltage: 2.30~2.90V, Accuracy: ±100mV
Overdischarge release voltage: 2.90~3.00V, Accuracy: ±100mV
Discharge overcurrent detection voltage: 150mV, Accuracy: ±30mV
Short-circuiting detection voltage: 0.85V (fixed), Accuracy: ±300mV
* Delay times are generated by an internal circuit (external capacitors are unnecessary)
Overcharge delay time: 100ms (typ.)
Overdischarge delay time: 25ms (typ.)
Discharg e overcurrent delay time: 10ms (typ.)
Short circuit delay time: 500μs (typ.)
* Low current consumption (Products with Power-down Function)
Operation mode: 3.0μA typ., 6.0μA max. (VDD=3.9V)
Ultra low power-down current: 0.1μA max. (VDD=2.0V)
* High-withstanding-voltage device is used for charger connection pins (CS pin and OC pin: Absolute maximum
rating=20V)
* 0 V battery charge function “available” / “unavailable” are selectable.
* Wide operating temperature range: -40°C~+85°C
ORDERING INFORMATION
Ordering Number
Lead Free
Package
SOT-26
Packing
Halogen Free
UB262xL-AG6-R
UB262xG-AG6-R
Tape Reel
Note: xx: Output Voltage, refer to Marking Information.
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UB262
Preliminary
CMOS IC
MARKING
SERIAL CODE LIST
Overcharge
Detection
Voltage
Overcharge
Release
Voltage
Over discharge
Detection
Voltage
Over discharge
Release
Over Current
Detection
Voltage
Model
Code
Voltage
[VCU](V)
[VCL](V)
[VDL](V)
[VDU](V)
[VDIOV](mV)
150±30
A
B
4.30 ±0.05
4.28 ±0.05
4.10 ±0.05
4.08 ±0.05
2.4 ±0.10
2.4 ±0.10
3.0 ±0.10
3.0 ±0.10
UB262
150±30
PIN CONFIGURATION
PIN DESCRIPTION
PIN NO.
PIN NAME
OD
DESCRIPTION
1
2
3
4
5
6
For discharge control: FET gate connection pin
For current sense and charger detection input pin
For charge control: FET gate connection pin
Test pin for delay time measurement, no connection
Positive power input
CS
OC
NC
VDD
VSS
Negative power input
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UB262
Preliminary
CMOS IC
BLOCK DIAGRAM
0V Battery Charge or
Inhibition Detector
VDD
CS
Oscillator
Charger Detector
Short circuit Detector
Divider
Overdischarge
Detector
Control
Logic
CS
Overcharge
Detector
Over current Detector
VSS
OD
OC
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UB262
Preliminary
CMOS IC
ABSOLUTE MAXIMUM RATING (VSS=0V, TA=25°С, unless otherwise specified)
PARAMETER
SYMBOL
VDD
RATINGS
VSS-0.3~VSS+12
VDD-20~VDD+0.3
VSS-0.3~VDD+0.3
VDD-20~VDD+0.3
-40~+85
UNIT
V
Input Voltage Between VDD and VSS (Note 2)
OC Output Pin Voltage
VOC
V
DO Output Pin Voltage
VOD
V
CS Input Pin Voltage
VCS
V
Ambient Operating Temperature
Storage Temperature
TOPR
TSTG
°С
°С
-40~+125
Notes: 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=3.9V, VCS=0V
3.0
6.0
0.1
μA
μA
Power-Down Current
IPDN VDD=VCS=2.0V
OPERATING VOLTAGE
Operating Voltage Between VDD-pin
and VSS-pin
VDS1
VDS2
1.5
1.5
8
V
V
Operating Voltage Between VDD-pin
and CS-pin
20
DETECTION VOLTAGE
Overcharge Detection Voltage
Overcharge Release Voltage
Overdischarge Detection Voltage
Overdischarge Release Voltage
Over Current Detection Voltage
Load Short Circuit Detection Voltage
Charger Detection Voltage
0V BATTERY CHARGE VOLTAGE
0V Battery Charge Inhibition Battery
Voltage
VCU
VCU-0.050 VCU VCU+0.050
V
V
V
V
V
V
V
VCL
VCL-0.050
VDL-0.100
VCL
VDL
VCL+0.050
VDL+0.100
VDL
VDU
VDU-0.100 VDU VDU+0.100
VDIOV-0.03 VDIOV VDIOV+0.03
VDIOV VDD=3.6V
VSHORT VDD=3.0V
VCHA VDU≠VDL
0.55
0.85
-0.3
1.15
V0INH
V0CH
0.9
1.8
V
V
0V battery charge starting charger
voltage
1.2
CONTROL OUTPUT VOLTAGE(OD&OC)
OD Pin Output “H” Voltage
VDH
VDL
CDH
CDL
VDD-0.1 VDD-0.02
0.1
VDD-0.1 VDD-0.02
-
V
V
V
V
OD Pin Output “L” Voltage
-
0.5
-
OC Pin Output “H” Voltage
OC Pin Output “L” Voltage
-
0.1
0.5
DELAY TIME
Overcharge Detection Delay Time
Overdischarge Detection Delay Time
Over Current Detection Delay Time
Short Circuit Detection Delay Time
tCU
tDL
VDD=3.9V to 4.5V
VDD=3.6V to 2.0V
VDD=3.6V
50
10
5
100
25
150
40
ms
ms
ms
µs
tIOV
10
15
tSHORT VDD=3.0V
500
700
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UB262
Preliminary
CMOS IC
OPERATION
1. Normal Condition
The UTC UB262 series monitors the voltage of the battery connected between VDD pin and VSS pin and the
voltage difference between CS pin and VSS pin to control charging and discharging. When the battery voltage is in
the range from the overdischarge detection voltage (VDL) to the overcharge detection voltage (VCU), and the CS pin
voltage is in the range from the charger detection voltage (VCHA) to the overcurrent detection voltage (VDIOV), the IC
turns both the charging and discharging control FETs on. This condition is called the normal condition, and in this
condition charging and discharging can be carried out freely.
Note: When a battery is connected to the IC for the first time, discharging may not be enabled. In this case, short
the CS pin and VSS pin or connect the charger to restore the normal condition.
2. Overcurrent Condition
When a battery in the normal status is in the status where the voltage of the CS pin is equal to or higher than the
overcurrent detection voltage because the discharge current is higher than the specified value and the status lasts
for the overcurrent detection delay time, the discharge control FET is turned off and discharging is stopped. This
status is called the overcurrent status. In the overcurrent status, the CS and VSS pins are shorted by the resistor
between CS and VSS (RVMS) in the IC. However, the voltage of the CS pin is at the VDD potential due to the load as
long as the load is connected. When the load is disconnected, the CS pin returns to the VSS potential. This IC detects
the status 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 CS pin returns to
overcurrent detection voltage (VDIOV) or lower and the overcurrent status is restored to the normal status.
Note: The impedance that enables automatic restoration varies depending on the battery voltage and the set
value of overcurrent detection voltage.
3. Overcharge Condition
When the battery voltage becomes higher than the overcharge detection voltage (VCU) during charging under the
normal condition and the detection continues for the overcharge detection delay time (tCU), the UTC UB262 series
turns the charging control FET off to stop charging. This condition is called the overcharge condition. The overcharge
condition is released by the following two cases:
(1) When the battery voltage falls below the overcharge release voltage (VCL), the UTC UB262 series turns the
charging control FET on and turns to the normal condition.
(2) When a load is connected and discharging starts, the UTC UB262 series turns the charging control FET on
and returns to the normal condition. Just after the load is connected and discharging starts, the discharging current
flows through the parasitic diode in the charging control FET. At this moment the CS pin potential becomes Vf, the
voltage for the parasitic diode, higher than VSS level. When the battery voltage goes under the overcharge detection
voltage (VCU) and provided that the CS pin voltage is higher than the overcurrent detection voltage, the UTC UB262
series releases the overcharge condition.
Note 1: If the battery is charged to a voltage higher than the overcharge detection voltage (VCU) and the battery
voltage does not fall below the overcharge detection voltage (VCU) even when a heavy load is connected, the
detection of overcurrent , load shortcircuiting do not function until the battery voltage falls below over charge
detection voltage (VCU). Since an actual battery has an internal impedance of several dozens of mΩ, the battery
voltage drops immediately after a heavy load that causes overcurrent is connected, and the detection of overcurrent
and load short-circuiting function.
Note 2: When a charger is connected after the overcharge detection, the overcharge condition is not released
even if the battery voltage is below the overcharge release voltage (VCL). The overcharge condition is released when
the CS pin voltage goes over the charger detection voltage (VCHA) by removing the charger.
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UB262
Preliminary
CMOS IC
OPERATION(Cont.)
4. Overdischarge Condition
When the battery voltage falls below the overdischarge detection voltage (VDL) during discharging under the
normal condition and the detection continues for the overdischarge detection delay time (tDL), the UB262 series turns
the discharging control FET off to stop discharging. This condition is called the overdischarge condition. When the
discharging control FET is turned off, the CS pin voltage is pulled up by the resistor between CS and VDD in the IC
(RVMD). When the voltage difference between the CS and VDD then is 1.2V (typ.) or lower, the current consumption is
reduced to the power-down current consumption (IPDN). This condition is called the power-down condition.
The power-down condition is released when a charger is connected and the voltage difference between the CS
and VDD becomes 1.2V (typ.) or higher. Moreover when the battery voltage becomes the overdischarge detection
voltage (VDL) or higher, the UTC UB262 series turns the discharging FET on and returns to the normal condition.
5. Charger Detection
When a battery in the overdischarge condition is connected to a charger and provided that the CS pin voltage is
lower than the charger detection voltage (VCHA), the UTC UB262 series releases the overdischarge condition and
turns the discharging control FET on when the battery voltage becomes equal to or higher than the overdischarge
detection voltage (VDL) since the charger detection function works. This action is called charger detection.
When a battery in the overdischarge condition is connected to a charger and provided that the CS pin voltage is
not lower than the charger detection voltage (VCHA), the UTC UB262 series releases the overdischarge condition
when the battery voltage reaches the overdischarge detection voltage (VDU) or higher.
6. Abnormal Charge Current Detection
If the CS pin voltage falls below the charger detection voltage (VCHA) during charging under normal condition and
it continues for the overcharge detection delay time (tCU) , the charging control FET turns off and charging stops. This
action is called the abnormal charge current detection.
Abnormal charge current detection works when the OD pin voltage is “H” and the CS pin voltage falls below the
charger detection voltage (VCHA). Consequently, if an abnormal charge current flows to an over-discharged battery,
the UTC UB262 series turns the charging control FET off and stops charging after the battery voltage becomes
higher than the overdischarge detection voltage which make the OD pin voltage “H”, and still after the overcharge
detection delay time (tCU) elapses.
Abnormal charge current detection is released when the voltage difference between CS pin and VSS pin becomes
less than charger detection voltage (VCHA).
7. Delay Circuits
The detection delay times are determined by dividing a clock of the approximately 3.5kHz with the counter.
Note 1: The detection delay time for load short-circuiting (tSHORT) start when the overcurrent (VDIOV) is detected.
When the load short-circuiting (VSHORT) is detected over the detection delay time for each of them (=tSHORT) after the
detection of overcurrent (VDIOV), the UTC UB262 series turns the FET off within tSHORT of each detection.
Note 2: When the overcurrent is detected and continues for longer than the overdischarge detection delay time
(tDL) without releasing the load, the condition changes to the power-down condition when the battery voltage falls
below the overdischarge detection voltage (VDL). When the battery voltage falls below the overdischarge detection
voltage (VDL) due to the overcurrent, the UTC UB262 series turns the discharging control FET off by the overcurrent
detection. In this case the recovery of the battery voltage is so slow that if the battery voltage after the overdischarge
detection delay time (tDL) is still lower than the over discharge detection voltage (VDL), the UTC UB262 series shifts
to the power-down condition.
8. 0V Battery Charge Inhibiting Function
This function inhibits the recharging when a battery that is short-circuited (0V battery) internally is connected.
When the battery voltage is the 0V battery charge inhibition battery voltage (V0INH) or lower, the charging control FET
gate is fixed to EB- pin voltage to inhibit charging. When the battery voltage is the 0V battery charge inhibition
battery voltage (V0INH) or higher, charging can be performed.
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UB262
Preliminary
CMOS IC
TIMING CHART
(1) Overcharge Detection, Overdischarge Detection
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UB262
Preliminary
CMOS IC
TIMING CHART (Cont.)
(2) Discharge Overcurrent Detection
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UB262
Preliminary
CMOS IC
TIMING CHART (Cont.)
(3) Abnormal Charge Overcurrent Detection
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UB262
Preliminary
CMOS IC
TYPICAL APPLICATION CIRCUIT
EB+
R1=100~470Ω
VDD
UTC
UB262
Battery
C1=0.1µF
CS
VSS
OD
OC
R2=1kΩ
M1
M2
EB-
Notes: 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 100Ω to 470Ω, 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, OD 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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