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BQ2000_15 Datasheet, PDF (8/29 Pages) Texas Instruments – Programmable Multi-Chemistry Fast-Charge Management IC
bq2000
SLUS138D – JANUARY 2008 – REVISED DECEMBER 2009
www.ti.com
hold-off period = MTO
32
(1)
Maximum Charge Time (NiCD, NiMH, and Li-Ion)
The bq2000 sets the maximum charge-time through the RC pin. With the proper selection of external resistor and
capacitor values, various time-out values may be achieved. If the timer expires while still in constant-current
charging, the bq2000 assumes a Nickel chemistry and proceeds to top-off charge (if top-off is enabled) or trickle
maintenance charge. Figure 5 shows a typical connection.
2 VSS
bq2000
VCC 7
6
RC
CMTO
RMTO
Figure 5. Typical Connection for the RC Input
The following equation shows the relationship between the RMTO and CMTO values and the maximum charge time
(MTO) for the bq2000:
MTO = RMTO ´ CMTO ´ 35,988
(2)
MTO is measured in minutes, RMTO in ohms, and CMTO in farads. (Note: RMTO and CMTO values also determine
other features of the device. See Table 4 and Table 5 for details.
If, during fast charge, VTS > VLTF, then the timer is paused and the IC enters battery conditioning charge until VTS
< VLTF. Since the IC is in the battery conditioning state, the LED flashes at the 1 Hz rate. Once VTS<VLTF, fast
charge restarts and the timer resumes from where it left off with no change in total fast charge time.
For Li-Ion cells, when the battery reaches the constant-voltage phase of fast charge, the bq2000 adds an
additional MTO of time to whatever time was left over from the constant current fast charge timer. Thus, the pack
could spend longer than 1 MTO in constant-voltage fast charge, but is always limited to 1 MTO in
constant-current fast charge. This feature provides the additional charge time required for Li-Ion cells.
For Nickel cells, if top-off is enabled, the timer is reset on the completion of fast charge before beginning top-off
charge.
Maximum Temperature (NiCd, NiMH, Li-Ion)
A negative-coefficient thermistor, referenced to VSS and placed in thermal contact with the battery, may be used
as a temperature-sensing device. Figure 6 shows a typical temperature-sensing circuit.
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