Datasheet
bq24090, bq24091
bq24092, bq24093
bq24095
SLUS968E –JANUARY 2010–REVISED SEPTEMBER 2013
www.ti.com
ELECTRICAL CHARACTERISTICS (continued)
Over junction temperature range 0°C ≤ T
J
≤ 125°C and recommended supply voltage (unless otherwise noted)
PARAMETER TEST CONDITIONS MIN TYP MAX UNIT
QUIESCENT CURRENT
I
OUT(PDWN)
Battery current into OUT pin V
IN
= 0V 1
μA
I
OUT(DONE)
OUT pin current, charging terminated V
IN
= 6V, V
OUT
> V
OUT(REG)
6
I
IN(STDBY)
Standby current into IN pin TS = LO, V
IN
≤ 6V 125 μA
TS = open, V
IN
= 6V, TTDM – no load on OUT pin,
I
CC
Active supply current, IN pin 0.8 1.0 mA
V
OUT
> V
OUT(REG)
, IC enabled
BATTERY CHARGER FAST-CHARGE
Battery regulation voltage
V
IN
= 5.5V, I
OUT
= 25mA, (V
TS-45°C
≤ V
TS
≤ V
TS-0°C
) 4.16 4.2 4.23
(bq24090/1/2/3)
V
OUT(REG)
V
Battery regulation voltage (bq24095) V
IN
= 5.5V, I
OUT
= 25mA 4.30 4.35 4.40
Battery hot regulation Voltage,
V
O_HT(REG)
V
IN
= 5.5V, I
OUT
= 25mA, V
TS-60°C
≤ V
TS
≤ V
TS-45°C
4.02 4.06 4.1 V
bq24092/3
V
OUT(REG)
> V
OUT
> V
LOWV
; V
IN
= 5V, ISET2=Lo,
Programmed Output “fast charge”
I
OUT(RANGE)
10 1000 mA
current range
R
ISET
= 540 to 10.8kΩ
Adjust VIN down until I
OUT
= 0.5A, V
OUT
= 4.15V,
V
DO(IN-OUT)
Drop-Out, VIN – VOUT 325 520 mV
R
ISET
= 540 , ISET2=Lo (adaptor mode); T
J
≤ 100°C
I
OUT
Output “fast charge” formula V
OUT(REG)
> V
OUT
> V
LOWV
; V
IN
= 5V, ISET2 = Lo K
ISET
/R
ISET
A
R
ISET
= K
ISET
/I
OUT
; 50 < I
OUT
< 1000 mA 510 540 565
Fast charge current factor for
K
ISET
R
ISET
= K
ISET
/I
OUT
; 25 < I
OUT
< 50 mA 480 527 580 AΩ
bq24090, 91, 92, 93
R
ISET
= K
ISET
/I
OUT
; 10 < I
OUT
< 25 mA 350 520 680
R
ISET
= K
ISET
/I
OUT
; 50 < I
OUT
< 1000 mA 510 560 585
Fast charge current factor for
K
ISET
R
ISET
= K
ISET
/I
OUT
; 25 < I
OUT
< 50 mA 480 557 596 AΩ
bq24095
R
ISET
= K
ISET
/I
OUT
; 10 < I
OUT
< 25 mA 350 555 680
PRECHARGE – SET BY PRETERM PIN
Pre-charge to fast-charge transition
V
LOWV
2.4 2.5 2.6 V
threshold
Deglitch time on pre-charge to fast-
t
DGL1(LOWV)
70 μs
charge transition
Deglitch time on fast-charge to pre-
t
DGL2(LOWV)
32 ms
charge transition
I
PRE-TERM
Refer to the Termination Section
V
OUT
< V
LOWV
; R
ISET
= 1080Ω; %I
OUT-
Pre-charge current, default setting 18 20 22
R
PRE-TERM
= High Z
CC
%
PRECHG
Pre-charge current formula R
PRE-TERM
= K
PRE-CHG
(Ω/%) × %
PRE-CHG
(%) R
PRE-TERM
/K
PRE-CHG%
V
OUT
< V
LOWV
, V
IN
= 5V, R
PRE-TERM
= 2k to 10kΩ;
R
ISET
= 1080Ω , R
PRE-TERM
= K
PRE-CHG
× %I
FAST-CHG
, 90 100 110 Ω/%
where %I
FAST-CHG
is 20 to 100%
K
PRE-CHG
% Pre-charge Factor
V
OUT
< V
LOWV
, V
IN
= 5V, R
PRE-TERM
= 1k to 2kΩ; R
ISET
= 1080Ω, R
PRE-TERM
= K
PRE-CHG
× %I
FAST-CHG
, where 84 100 117 Ω/%
%I
FAST-CHG
is 10% to 20%
TERMINATION – SET BY PRE-TERM PIN
Termination Threshold Current, default V
OUT
> V
RCH
; R
ISET
= 1k; %I
OUT-
9 10 11
setting R
PRE-TERM
= High Z
CC
%
TERM
Termination Current Threshold
R
PRE-TERM
= K
TERM
(Ω/%) × %TERM (%) R
PRE-TERM
/ K
TERM
Formula
V
OUT
> V
RCH
, V
IN
= 5V, R
PRE-TERM
= 2k to 10kΩ ;
R
ISET
= 750Ω K
TERM
× %I
FAST-CHG
, where %I
FAST-CHG
182 200 216
is 10 to 50%
K
TERM
% Term Factor Ω/%
V
OUT
> V
RCH
, V
IN
= 5V, R
PRE-TERM
= 1k to 2kΩ ; R
ISET
174 199 224
= 750Ω K
TERM
× %Iset, where %Iset is 5 to 10%
Current for programming the term. and
I
PRE-TERM
pre-chg with resistor. I
Term-Start
is the R
PRE-TERM
= 2k, V
OUT
= 4.15V 71 75 81 μA
initial PRE-TERM current.
%TERM Termination current formula R
TERM
/ K
TERM
%
t
DGL(TERM)
Deglitch time, termination detected 29 ms
Elevated PRE-TERM current for, t
Term-
I
Term-Start Start
, during start of charge to prevent 80 85 92 μA
recharge of full battery,
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