Datasheet
MAX8677C
1.5A Dual-Input USB/AC Adapter Charger
and Smart Power Selector
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Charge Enable (
CEN
)
When CEN is low, the charger is on. When CEN is high,
the charger turns off. CEN does not affect the SYS out-
put. In many systems, there is no need for the system
controller (typically a microprocessor) to disable the
charger, because the MAX8677C Smart Power Selector
circuitry independently manages charging and
adapter/battery power hand-off. In these situations,
CEN can be connected to ground.
Setting the Charge Current
ISET adjusts charge current to match the capacity of
the battery. A resistor from ISET to ground sets the
maximum fast-charge current:
I
CHGMAX
= 2000 x 1.5V/R
ISET
= 3000/R
ISET
Determine the I
CHGMAX
value by considering the char-
acteristics of the battery. It is not necessary to limit the
charge current based on the capabilities of the expected
AC adapter/USB charging input, the system load, or
thermal limitations of the PCB. The MAX8677C automat-
ically adjusts the charging algorithm to accommodate
these factors.
Monitoring the Charge Current
In addition to setting the charge current, ISET can also
be used to monitor the actual current charging the bat-
tery. The ISET output voltage is:
V
ISET
= I
CHG
x 1.5V/I
CHGMAX
= I
CHG
x R
ISET
/2000
where I
CHGMAX
is the set fast-charge current and I
CHG
is the actual battery charge current. A 1.5V output indi-
cates the battery is being charged at the maximum set
fast-charge current; 0V indicates no charging. This volt-
age is also used by the charger control circuitry to set
and monitor the battery current. Avoid adding more
than 10pF capacitance directly to the ISET pin. If filter-
ing of the charge-current monitor is necessary, add a
resistor of 100kΩ or more between ISET and the filter
capacitor to preserve charger stability. See Figure 6.
Note that the actual charge current can be less than
the set fast-charge current when the charger enters
voltage mode or when charge current is reduced by
the input current limiter or thermal limiter. This prevents
the charger from overloading the input source or over-
heating the system.
Charge Termination
When the charge current falls to the termination thresh-
old AND the charger is in voltage mode, charging is
complete. Charging continues for a brief 15s top-off
period and then enters the DONE state in which charg-
ing stops. The termination current threshold (I
TERM
) is
set by TSET to a percentage of the fast-charge current:
Connect TSET to GND for I
TERM
= I
CHGMAX
x 5%
Leave TSET open for I
TERM
= I
CHGMAX
x 10%
Connect TSET to VL for I
TERM
= I
CHGMAX
x 15%
Note that if charge current falls to I
TERM
as a result of the
input or thermal limiter, the charger does not enter
DONE. For the charger to enter DONE, the charge cur-
rent must be less than I
TERM
, the charger must be in
voltage mode, and the input or thermal limiter must not
be reducing the charge current. The charger exits the
DONE state, and fast charge resumes if the battery volt-
age subsequently drops 100mV or if CEN is cycled.
Charge Status Outputs
Charge Output (
CCHHGG
)
CHG is an open-drain, active-low output that is low dur-
ing charging. CHG is low when the battery charger is in
its prequalification and fast-charge states. When charge
current falls to the charge termination threshold and the
charger is in voltage mode, CHG goes high impedance.
CHG goes high impedance if the thermistor causes the
charger to enter temperature suspend mode.
When the MAX8677C is used with a microprocessor (µP),
connect a pullup resistor between CHG and the logic I/O
voltage to indicate charge status to the µP. Alternatively,
CHG can sink up to 20mA for an LED indicator.
Prequal Output
PPRREEQQ
PREQ is an open-drain, active-low output that goes low
when the charger is in prequal state.
1.5
0
V
ISET
=
R
ISET
2000
x I
CHG
MONITORING THE BATTERY
CHARGE CURRENT WITH V
ISET
0
2000 (1.5V / R
ISET
)
BATTERY CHARGING CURRENT (A)
DISCHARGING
V
ISET
(V)
Figure 6. Monitoring the Charge Current with the ISET Voltage