Over Charge Detection, VOC
4.35 VBAT
Over Discharge Detection, VOD
2.80 VBAT
IOC, Over Charge Current Detection
Load Short Circuit Protection with Delay Time to avoid a false trigger
Activated by Applying VON to the VOUT Pin from Charger
1.5 A Continuous Charging Current Capability from VOUT to VBAT Pin
Low RON
57 mΩ Typ. @ 3.6 VBAT
Quiescent Current, IQ
900 nA Typ. @ 3.6 VBAT
Shutdown Current
ISD = 7 nA Typ. @ VBAT < VOD ; ISD = 8 nA Typ. @ VBAT = 3.6 V, Shipping Mode ; ISD = 9 nA Typ. @ VBAT = 4.2 V, Shipping Mode
Latch-off at Over Discharge Detection and Short Circuit Protection. Apply VON to VOUT pin to turn on
Shipping Mode Implementation
0 V Battery Minimum Voltage for Charging
Reverse Polarity Connection Protection
Patent Pending Circuit Architecture
HBM / CDM
8kV / 2kV
Chip Scale Package 4 Bumps
0.97 mm x 0.97 mm x 0.55, 0.5 mm Pitch
The GLF73915 is an IQSmartTM ultra-efficient, full battery protection IC with an accurate over charge voltage, over discharge voltage, shipping mode, over charge current, and short circuit protection for lithium-Ion/Polymer battery safety.
The over charge and discharge voltage protections keep a rechargeable battery working within the desired safe operating condition. When the battery is charged past the over voltage detection level, the GLF73915 charging switch opens in a preset delay time. As the battery voltage decreases below the over discharge detection voltage level, the GLF73915 discharging switch is turned off immediately to cut off the battery power rail, consuming an ultra-low leakage current (ISD) to save the battery. In addition, when the load current reaches the ISC short circuit protection level, the GLF73915 is turned off and will maintain the off state to avoid any serious damage to system. The short circuit delay time avoids any false trigger which might open the switch.
The GLF73915 provides a shipping mode pin to prevent smart devices with a non-removable battery from discharging during the shipping period. When a charged battery cell is connected the GLF73915 remains in the off state and consumes an ultra-low leakage current (ISD) until the VON voltage is applied to VOUT pin. Note that the GLF73915 is activated only by a VON voltage from a charger output.
