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BQ24013 Datasheet, PDF (11/21 Pages) Texas Instruments – SINGLE-CHIP, LI-ION CHARGE MANAGEMENT IC FOR HANDHELD APPLICATIONS (bq TINY)
bq24010, bq24012, bq24013, bq24014
www.ti.com
SLUS530F − SEPTEMBER 2002 − REVISED AUGUST 2005
FUNCTIONAL DESCRIPTION
TEMPERATURE QUALIFICATION
NOTE:The temperature qualifications apply only to versions with temperature sense input (TS) pin option (bq24010 and
bq24014).
Versions of the bqTINY with the TS pin option, continuously monitor battery temperature by measuring the voltage between
the TS and VSS pins. A negative temperature coefficient thermistor (NTC) and an external voltage divider typically
develops this voltage (see Figure 3). The bqTINY compare this voltage against the internal V(TS1) and V(TS2) thresholds
to determine if charging is allowed (see Figure 6). The temperature sensing circuit is immune to any fluctuation in VCC since
both the external voltage divider and the internal thresholds are ratiometric to VCC.
Once a temperature outside the V(TS1) and V(TS2) thresholds is detected the bqTINY immediately suspend the charge. The
bqTINY suspends charge by turning off the powerFET and holding the timer value (i.e. timers are NOT reset). Charge is
resumed when the temperature returns to the normal range.
VCC
Charge Suspend
V(TS2)
V(TS1)
Normal Temperature Range
Charge Suspend
VSS
Figure 6. TS Pin Thresholds
The resistor values of RT1 and RT2 are calculated by equations (1) and (2) (for NTC Thermistors )
ǒ5
RT1 + ǒ3
RTH RTCǓ
ǒRTC
*
R
ǓǓ
TH
(9)
RT2 +
ǒ2
ǒ5 RTH RTCǓ
RTCǓ * ǒ7 RTHǓ
(10)
Where RTC is the cold temperature resistance and RTH is the hot temperature resistance of thermistor, as specified
by the thermistor manufacturer.
RT1 or RT2 can be omitted If only one temperature (hot or cold) setting is required. Applying a constant voltage
between the VTS1 and VTS2 thresholds to pin TS disables the temperature-sensing feature.
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