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BQ24070RHLRG4 Datasheet, PDF (4/31 Pages) Texas Instruments – SINGLE-CHIP LI-ION CHARGE AND SYSTEM POWER-PATH MANAGEMENT IC
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SLUS694F – MARCH 2006 – REVISED DECEMBER 2009
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ELECTRICAL CHARACTERISTICS
over junction temperature range (0°C ≤ TJ ≤ 125°C) and the recommended supply voltage range (unless otherwise noted)
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX UNIT
INPUT BIAS CURRENTS
ICC(SPLY)
ICC(SLP)
Active supply current, VCC
Sleep current (current into BAT
pin)
VVCC > VVCC(min)
VIN < V(BAT)
2.6 V ≤ VI(BAT) ≤ VO(BAT-REG),
Excludes load on OUT pin
1
2
mA
2
5
ICC(IN-STDBY)
Input standby current
ICC(BAT-STDBY)
BAT standby current
IIB(BAT)
Charge done current, BAT
OUT PIN-VOLTAGE REGULATION
VI(AC) ≤ 6V, Total current into IN pin with
chip disabled, Excludes all loads, CE=LOW,
after t(CE-HOLDOFF) delay
Total current into BAT pin with input present
and chip disabled;
Excludes all loads, CE=LOW,
after t(CE-HOLDOFF) delay,
0°C ≤ TJ ≤ 85°C(1)
Charge DONE, input supplying the load
200
μA
45
65
1
5
VO(OUT-REG)
Output regulation
voltage
OUT PIN – DPPM REGULATION
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VI(AC) ≥ 4.4 V + VDO
VI(AC) ≥ 6 V + VDO
4.4
4.5
V
6.0
6.3
V(DPPM-SET)
DPPM set point(2)
VDPPM-SET < VOUT
I(DPPM-SET)
DPPM current source
Input present
SF
DPPM scale factor
V(DPPM-REG) = V(DPPM-SET) × SF
OUT PIN – FET (Q1, Q2) DROP-OUT VOLTAGE RDS(on))
V(ACDO)
AC to OUT dropout voltage(3)
VI(AC) ≥ VCC(min), Mode = High,
II(AC) = 1 A, (IO(OUT)+ IO(BAT)), or no input
V(BATDO)
BAT to OUT dropout voltage
(discharging)
VI (BAT) ≥ 3 V, II(BAT)= 1.0 A, VCC < VI(BAT)
2.6
95
1.139
100
1.150
300
40
3.8
V
105
μA
1.162
475
mV
100
OUT PIN - BATTERY SUPPLEMENT MODE
VBSUP1
VBSUP2
Enter battery supplement mode
(battery supplements OUT current VI(BAT)> 2 V
in the presence of input source
Exit battery supplement mode
VI(BAT)> 2 V
VI(OUT)
≤ VI(BAT)
– 60 mV
V
VI(OUT)
≥ VI(BAT)
– 20 mV
OUT PIN - SHORT CIRCUIT
IOSH1
BAT to OUT short-circuit recovery
RSHAC
AC to OUT short-circuit limit
BAT PIN CHARGING – PRECHARGE
Current source between BAT to OUT for
short-circuit recovery to
VI(OUT) ≤ VI(BAT) –200 mV
VI(OUT) ≤ 1 V
10
mA
500
Ω
V(LOWV)
Precharge to fast-charge transition
threshold
Voltage on BAT
2.9
3
3.1
V
TDGL(F)
De-glitch time for fast-charge to
precharge transition(4)
IO(PRECHG)
Precharge range
V(PRECHG)
Precharge set voltage
BAT PIN CHARGING - CURRENT REGULATION
tFALL = 100 ns, 10 mV overdrive,
VI(BAT) decreasing below threshold
1 V < VI(BAT) < V(LOWV), t < t(PRECHG),
IO(PRECHG) = (K(SET) × V(PRECHG))/ RSET
1 V < VI(BAT) < V(LOWV), t < t(PRECHG)
22.5
ms
10
150
mA
225
250
275
mV
IO(BAT)
RPBAT
Battery charge current range (5)
BAT to OUT pullup
VI (BAT) > V(LOWV), Mode = High
IOUT(BAT) = (K(SET) × V(SET) / RSET),
VI(OUT) > VO(OUT-REG) + V(DO-MAX)
VI (BAT)< 1 V
100
1000
1500
mA
1000
Ω
(1) This includes the quiescent current for the integrated LDO.
(2) V(DPPM-SET) is scaled up by the scale factor for controlling the output voltage V(DPPM-REG).
(3) VDO(max), dropout voltage is a function of the FET, RDS(on), and drain current. The dropout voltage increases proportionally to the
increase in current.
(4) All de-glitch periods are a function of the timer setting and is modified in DPPM or thermal regulation modes by the percentages that the
program current is reduced.
(5) When input current remains below 2 A, the battery charging current may be raised until the thermal regulation limits the charge current.
4
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