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PDF LV51130T Data sheet ( Hoja de datos )
| Número de pieza | LV51130T | |
| Descripción | 2-Cell Lithium-Ion Secondary Battery Protection IC | |
| Fabricantes | ON Semiconductor | |
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Ordering number : ENA1227A
LV51130T
CMOS IC
2-Cell Lithium-Ion Secondary
Battery Protection IC
http://onsemi.com
Overview
The LV51130T is a protection IC for 2-cell lithium-ion secondary batteries.
Features
• Monitoring function for each cell:
• High detection voltage accuracy:
• Hysteresis cancel function:
• Discharge current monitoring function:
• Low current consumption:
• 0V cell charging function:
Detects overcharge and over-discharge conditions and controls the
charging and discharging operation of each cell.
Over-charge detection accuracy ±25mV
Over-discharge detection accuracy ±100mV
The hysteresis of over-discharge detection voltage is cancelled by
connection of a load after overcharging has been detected.
Detects over-currents, load shorting, and excessively high voltage of a
charger.
Normal operation mode typ. 6.0μA
Stand by mode
max. 0.2μA
Charging is enabled even when the cell voltage is 0V by giving a
voltage between the VDD pin and V- pin.
Specifications
Absolute Maximum Ratings at Ta = 25°C
Parameter
Power supply voltage
Input voltage
Charger minus voltage
Output voltage
Cout pin voltage
Dout pin voltage
Allowable power dissipation
Operating ambient temperature
Storage temperature
Symbol
VDD
V-
Conditions
Vcout
Vdout
Pd max
Topr
Tstg
Independent IC
Ratings
-0.3 to +12
VDD-28 to VDD+0.3
Unit
V
V
VDD-28 to VDD+0.3
VSS-0.3 to VDD+0.3
170
-30 to +85
-40 to +125
V
V
mW
°C
°C
Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating
Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability.
Semiconductor Components Industries, LLC, 2013
August, 2013
81011HKPC/60408MSPC 20080522-S00003 No.A1227-1/8
1 page  
LV51130T
Functional Description
Over-charge detection
If either of the cell voltage is equal to or more than the over-charge detection voltage, stop further charging by
turning “L” the Cout pin and turning off external Nch MOS FET after the over-charge detection delay time.
This delay time is set by the internal counter.
The over-charge detection comparator has the hysteresis function. Note that this hysteresis can be cancelled by
connecting the load after detection of over-charge detection. and it becomes small hysteresis comparator has its own.
Once over-charge detection is made, over-current detection is not made to prevent incorrect operations. Note that
short-circuit can be detected.
Over-charge release
If both cell voltages become equal to or less than the over-charge release voltage when VM voltage is equal to or less
than Vd3, or when VM voltage is more than Vd3 with load connected, the Cout pin returns to “H” after the over-
charge release delay time set by the internal counter.
When VM voltage is more than Vd3 with load connected and either cell or both cell voltages are equal to or more
than the over-charge release voltage, the Cout pin does not return to “H”. But the load current flows through the
parasitic diode of external Nch MOS FET on Cout, consequently each cell voltage becomes equal to or less than
over-charge release voltage, the Cout pin returns to “H.” after the over-charge release delay time.
However, excessive voltage charger is connected as mentioned below, Cout pin does not return to “H” because
excessive charger detection starts after over-charge release operation.
Over-discharge detection
When either cell voltage is equal to or less than over-discharge voltage, the IC stops further discharging by turning
the Dout pin “L” and turning off external Nch MOS FET after the over-charge detection delay time.
The IC goes into stand-by mode after detecting over-discharge and its consumption current is kept at about 0A. After
over-discharge detection, the V- pin will be connected to VDD pin via internal resistor (typ 200kΩ).
Over-discharge release
Release from over-discharge is made by only connecting charger. If the V- pin voltage becomes equal to or lower
than the stand-by release voltage by connecting charger after detecting over-discharge, The IC is released from the
stand-by state to start cell voltage monitoring. While both cell voltages are equal to or less than over-discharge
voltages, charging will be made through the parasitic diode of external Nch FET on Dout pin. If both cell voltages
become equal to or more than the over-discharge detection voltage by charging, the Dout pin returns to “H” after the
over-discharge release delay time set by the internal counter.
Over-current detection
When excessive current flows through the battery, the V- pin voltage rises by the ON resister of external MOS FET
and becomes equal to or more than the over-current detection voltage, the Dout pin turns to “L” after the over-current
detection delay time and the external Nch MOS FET is turned off to prevent excessive current in the circuit. The
detection delay time is set by the internal counter. After detection, the V- pin will be connected to VSS via internal
resistor (typ. 30kΩ). It will not go into stand-by mode after detecting over-current.
Short circuit detection
If greater discharging current flows through the battery and the V- pin voltage becomes equal to or more than the
short-circuit detection voltage, it will go into short-circuit detection state after the short circuit delay time shorter than
the over-current detection delay time. When short-circuit is detected, just like the time of over-current detection, the
Dout pin turns to “L” and external Nch MOS FET is turned off to prevent high current in the circuit. The V- pin will
be connected to VSS after detection via internal resistor (typ. 30kΩ). It will not go into stand-by mode after detecting
short circuit.
Over-current/short-detection release
After detecting over-current or short circuit, the internal resistor (typ. 30kΩ) between V- pin and VSS pin becomes
effective. If the load resistor is removed, the V- pin voltage will be pulled down to the VSS level. Thereafter, the IC
will be released from the over-current/short-circuit detection state when the V- pin voltage becomes equal to or less
than the over-current detection voltage, and the Dout pin returns to “H” after over-current release delay time set by
the internal counter.
No.A1227-5/8
5 Page | ||
| Páginas | Total 8 Páginas | |
| PDF Descargar | [ Datasheet LV51130T.PDF ] | |
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