Datasheet
æ ö
D = -
ç ÷
ç ÷
è ø
2
BAT
o BAT
2
IN
s
V
1
V V
V
8LCf
RIPPLE
COUT RIPPLE
I
I = 0.29 I
2 3
» ´
´
CIN CHG
I = I D (1 D)´ ´ -
IN
RIPPLE
S
V D (1 D)
I =
f L
´ ´ -
´
SAT CHG RIPPLE
I I + (1/2) I³
bq24610
bq24617
www.ti.com
SLUS892B –DECEMBER 2009–REVISED SEPTEMBER 2013
APPLICATION INFORMATION
Inductor Selection
The bq24610/7 has 600-kHz switching frequency to allow the use of small inductor and capacitor values.
Inductor saturation current should be higher than the charging current (I
CHG
) plus half the ripple current (I
RIPPLE
):
(12)
The inductor ripple current depends on input voltage (V
IN
), duty cycle (D = V
OUT
/V
IN
), switching frequency (f
s
) and
inductance (L):
(13)
The maximum inductor ripple current happens with D = 0.5 or close to 0.5. For example, the battery charging
voltage range is from 9 V to 12.6 V for a 3-cell battery pack. For 20-V adapter voltage, 10-V battery voltage gives
the maximum inductor ripple current. Another example is a 4-cell battery, the battery voltage range is from 12 V
to 16.8 V, and 12-V battery voltage gives the maximum inductor ripple current.
Usually inductor ripple is designed in the range of (20%–40%) maximum charging current as a trade-off between
inductor size and efficiency for a practical design.
The bq24610/7 has cycle-by-cycle charge undercurrent protection (UCP) by monitoring the charging-current
sensing resistor to prevent negative inductor current. The typical UCP threshold is 5-mV falling edge
corresponding to 0.5-A falling edge for a 10-mΩ charging-current sensing resistor.
Input Capacitor
The input capacitor should have enough ripple-current rating to absorb input switching ripple current. The worst-
case rms ripple current is half of the charging current when the duty cycle is 0.5. If the converter does not
operate at 50% duty cycle, then the worst-case capacitor rms current I
CIN
occurs where the duty cycle is closest
to 50% and can be estimated by the following equation:
(14)
A low-ESR ceramic capacitor such as X7R or X5R is preferred for the input-decoupling capacitor and should be
placed to the drain of the high-side MOSFET and source of the low-side MOSFET as close as possible. The
voltage rating of the capacitor must be higher than the normal input voltage level. A 25-V or higher-rating
capacitor is preferred for 20-V input voltage. 10-µF to 20-µF capacitance is suggested for typical of 3-A to 4-A
charging current.
Output Capacitor
Output capacitor also should have enough ripple-current rating to absorb the output switching ripple current. The
output capacitor rms current I
COUT
is given:
(15)
The output capacitor voltage ripple can be calculated as follows:
(16)
At a certain input/output voltage and switching frequency, the voltage ripple can be reduced by increasing the
output filter LC.
The bq24610/7 has an internal loop compensator. To get good loop stability, the resonant frequency of the
output inductor and output capacitor should be designed between 12 kHz and 17 kHz. The preferred ceramic
capacitor has a 25-V or higher rating, X7R or X5R for 4-cell application.
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