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BQ24616 Datasheet, PDF (20/34 Pages) Texas Instruments – JEITA Guideline Compatible Stand-Alone Synchronous Switch-Mode Li-Ion or Li-Polymer Battery Charger with System Power Selector and Low Iq
bq24616
SLUSA49A – APRIL 2010 – REVISED MAY 2010
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Temperature Qualification AND JEITA Guideline
The controller continuously monitors battery temperature by measuring the voltage between the TS pin and
GND. A negative temperature coefficient thermistor (NTC) and an external voltage divider typically develop this
voltage. The controller compares this voltage against its internal thresholds to determine if charging is allowed.
To initiate a charge cycle, the voltage on TS pin must be within the VT1 to VT5 thresholds. If VTS is outside of this
range, the controller suspends charge and waits until the battery temperature is within the VT1 to VT5 range.
During the charge cycle the battery temperature must be within the VT1 to VT5 thresholds. If battery temperature
is outside of this range, the controller suspends charge and waits until the battery temperature is within the VT1 to
VT5 range. The controller suspends charge by turning off the PWM charge FETs. If VTS is within the range of VT1
and VT2, charge voltage regulation on VFB pin is 2.1 V and the charge current is reduced to ICHARGE/2 (To avoid
early termination during VT1 and VT2 range, fast charge current need to be bigger than 2 times of termination
current); if VTS is within the range of VT2 and VT3, the charge voltage regulation on VFB pin is 2.1 V; if VTS is
within VT3 and VT4, the charge voltage regulation on VFB pin is reduced back to 2.05 V; and if VTS is within VT4
and VT5, the charge voltage regulation on VFB pin is further reduced to 2.025 V. Figure 16 below summarizes the
operation. Refer to Li-ion battery-charger solutions for JEITA compliance, SLYT365
Charge Voltage
VFB=2.1 V
VFB=2.05 V
VFB=2.025 V
Charge Current
Charge
Suspended
ICharge
ICharge/2
Temperature
Charge
Suspended
0 °C
10 °C
(T1)
(T2)
45 °C 50°C
(T3) (T4)
Temperature
60 °C
(T5)
Figure 16. Thermistor Sense Thresholds
Assuming a 103AT NTC thermistor on the battery pack as shown in Figure 1, the value RT1 and RT2 can be
determined by using the following equations:
RT2 =
VVREF
´
RTHCOLD
´
RTHHOT
´
æ1
çè VT1
-
1ö
VT5 ÷ø
RTHHOT
´
æ
çè
VVREF
VT5
-
ö
1÷ø
-
RTHCOLD
´
æ
çè
VVREF
VT1
- 1ö÷ø
(8)
RT1 =
VVREF
VT1
-1
1
1
+
RT2 RTHCOLD
(9)
20
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