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AAT3692 Datasheet, PDF (11/19 Pages) Skyworks Solutions Inc. – Dual Input 1.6A Linear Charger with 28V OVP in a 3x4 TDFN Package
DATA SHEET
AAT3692
Dual Input 1.6A Linear Charger with 28V OVP in a 3x4 TDFN Package
reduction mode or digital thermal loop is triggered, the
charge profile is controlled as shown in Figure 1.
Battery charging commences only after the AAT3692
checks several conditions in order to maintain a safe
charging environment. The input supply must be above
the minimum operating voltage and the enable pin must
be low. When the battery is connected to the BAT pin and
the NOBAT pin indicates there is a battery connected,
the AAT3692 checks the condition of the battery and
determines which charging mode to apply. If the battery
voltage is below VMIN, then the device begins trickle
charging by charging at 10% of the programmed con-
stant current. For example, if the programmed current is
500mA, then the trickle charge current is 50mA. Trickle
charging is a safety precaution for a deeply discharged
cell and will also reduce the power dissipation in the
internal series pass MOSFET when the input-output volt-
age differential is at its highest. Trickle charging contin-
ues until the battery voltage reaches VMIN. At this point,
the AAT3692 begins constant current charging. The cur-
rent value for this mode is programmed by the external
resistors from the ADPSET and USBSET pin to ground.
Programmed current can be set from a minimum of
100mA up to a maximum of 1.6A for an ADP power
source, and from a minimum of 50mA up to a maximum
of 500mA for a USB power source. Constant current
charging continues until the battery voltage reaches the
voltage regulation point, VBAT_EOC. When the battery volt-
age reaches VBAT_EOC (typical 4.2V), the AAT3692 will
switch to constant voltage mode. In this mode, charge
current decreases until it is reduced to a certain percent-
age of the current programmed by the resistor between
TERM and ground. After the charge cycle is complete,
the AAT3692 turns off the series pass device and auto-
matically goes into standby mode. During this time, the
series pass device will block current in both directions,
therefore preventing the battery from discharging
through the IC.
The AAT3692 remains in standby mode until either the
battery terminal voltage drops below the VRCH threshold,
the charger EN pin is recycled, or the charging source is
reconnected. In all cases, the AAT3692 will monitor all
parameters and resume charging in the most appropri-
ate mode.
Over-Voltage Protection
In normal operation an OVP switch acts as a slew-rate
controlled load switch, connecting and disconnecting the
power supply from ADP to ADPCH and USB to USBCH. A
low-resistance MOSFET is used to minimize the voltage
drop between the voltage source and the charger and to
reduce the power dissipation. When the voltage on the
input exceeds the 7.2V (typical) voltage limit, the device
immediately turns off the internal OVP switch, discon-
necting the load from the abnormal voltage and prevent-
ing damage to any downstream components.
On initial power-up with low and battery present, if
VUSB/ADP < VUVLO (3V maximum), the OVP switch is held
off; if VUVLO < VUSB/ADP < 7.2V (typical), the OVP switch will
turn on after a 130μs typical internal delay; if VUSB/ADP
rises above 7.2V (typical), the OVP switch is turned off
after a 0.5μs typical internal delay.
Battery Charge Current
Regulated Current
Preconditioning
Trickle Charge
Phase
Constant Current
Charge Phase
I = Max CC
Constant Voltage
Charge Phase
Battery Voltage
Charge Complete Voltage
Charge Current
Battery Voltage
Constant Current Mode
Voltage Threshold
Termination Current
Set by RTERM
Trickle Charge Current
I = CC/10
Time
Figure 1: Charge Current vs. Battery Voltage Profile during Charging Phases.
Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com
201895B • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice. • April 27, 2012
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