The R5463 Series are high voltage CMOS-based protection ICs for over-charge/discharge of two-cell Lithium-ion (Li+) / Lithium polymer, further include a short circuit protection circuit for preventing large external short circuit current and the protection circuits against the excess discharge-current and excess charge current.
Each of these ICs is composed of six voltage detectors, a reference unit, a delay circuit, a short circuit protector, an oscillator, a counter, and a logic circuit. When the over-charge voltage threshold or excess-charge current threshold crosses the each detector threshold from a low value to a high value, the output of COUT pin switches to “L” level after internal fixed delay time. To release over-charge detector after detecting over-charge, the detector can be reset and the output of COUT becomes "H" when a kind of load is connected to VDD after a charger is disconnected from the battery pack and the cell voltage becomes lower than over-charge detector threshold. In case that a charger is continuously connected to the battery pack, if the cell voltage becomes lower than the over-charge released voltage, over-charge state is also released.
The output of DOUT pin, the output of the over-discharge detector and the excess discharge-current detector, switches to “L” level after internally fixed delay time, when discharged voltage crosses the detector threshold from a high value to a value lower than VDET2. To release over-discharge detector, after detecting over-discharge voltage, connect a charger to the battery pack, and when the battery supply voltage becomes higher than the over-discharge detector threshold, the over-discharge detector is released and the voltage of DOUT pin becomes “H”. If the battery is discharged lower than maximum voltage for inhibition of charger, recharge current is not acceptable.
After detecting excess-discharge current or short current, when the load is disconnected, the excess discharged or short condition is released and DOUT becomes “H”.
After detecting over-discharge voltage, supply current will be kept extremely low by halting internal circuits' operation. When the output of COUT is “H”, if V- pin level is set at -1.6V, the delay time of over-charge and over-discharge detector can be shortened. Especially, the delay time of the over-charge detector can be reduced into approximately 1/60 and test time for protection circuit PCB can be reduced. The output type of COUT and DOUT is CMOS.
|Operating Input Voltage Range||1.5 V to 10.0 V (Absolute Maximum Rating: 12 V)|
|Charger Negative Input Voltage||-30 V (Absolute Maximum Rating)|
|Supply Current||Typ. 4.0 µA|
|Standby Current||Max. 0.1 µA|
|Over-charge||Detector Threshold Range||3.65 V to 4.32 V (0.005 V Steps)|
|Voltage Accuracy||±20 mV|
|Output Delay Time||1.0 s|
|Over-discharge||Detector Threshold Range||2.0 V to 3.2 V (0.1 V Steps)|
|Output Delay Time||128 ms|
|Detector Threshold Range||G Version: 0.05 V to 0.20 V (0.005 V Steps)
J Version: 0.20 V to 0.40 V (0.005 V Steps)
|Voltage Accuracy||G Version: ±10 mV
J Version: ±10%
|Output Delay Time||12 ms|
|Detector Threshold Range||-0.20 V to -0.10 V (0.005 V Steps)|
|Voltage Accuracy||±20 mV|
|Output Delay Time||8 ms|
|Short Current Protection||Detector Threshold||Typ. 1.0 V|
|Output Delay Time||Typ. 300 µs|
|Output Delay Time Shortening Function||At COUT is “H”, if V- level is set at –1.6V, the Output Delay time of detect the over-charge and over-discharge can be reduced. (Delay Time for over-charge becomes about 1/60 of normal state.)|
*) The tab is substrate level (VDD).
In the R5463 Series, input threshold of over-charge, over-discharge and excess discharge current can be designated.
|Product Name||Package||Quantity per Reel|