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LTC3577_15 Datasheet, PDF (25/54 Pages) Linear Technology – Highly Integrated 6-Channel Portable PMIC
LTC3577/LTC3577-1
OPERATION
The feedback network of the high voltage buck regulator
should be set to generate an output voltage higher than
4.4V (be sure to include the output voltage tolerance
of the buck regulator). The VC control of the LTC3577
overdrives the local VC control of the external high volt-
age buck. Therefore, once the VC control is enabled, the
output voltage is set independent of the buck regulator
feedback network.
This technique provides a significant efficiency advantage
over the use of a 5V buck to drive the battery charger. With
a simple 5V buck output driving VOUT, battery charger
efficiency is approximately:
ηCHARGER
=
ηBUCK
•
VBAT
5V
where ηBUCK is the efficiency of the high voltage buck
regulator and 5V is the output voltage of the buck regu-
lator. With a typical buck efficiency of 87% and a typical
battery voltage of 3.8V, the total battery charger efficiency
is approximately 66%. Assuming a 1A charge current,
this works out to nearly 2W of power dissipation just to
charge the battery!
With the VC control technique, battery charger efficiency
is approximately:
ηCHARGER
=
ηBUCK
•
VBAT
0.3V + VBAT
With the same assumptions as above, the total battery
charger efficiency is approximately 81%. This example
works out to just 900mW of power dissipation. For applica-
tions, component selection and board layout information
beyond those listed here please refer to the respective
high voltage buck regulator data sheet.
Suspend Mode
When ILIM0 is pulled low and ILIM1 is pulled high the
LTC3577 enters suspend mode to comply with the USB
specification. In this mode, the power path between VBUS
and VOUT is put in a high impedance state to reduce the
VBUS input current to 50μA. If no other power source
is available to drive WALL and VOUT, the system load
connected to VOUT is supplied through the ideal diodes
connected to BAT.
VBUS Undervoltage Lockout (UVLO) and Undervoltage
Current Limit (UVCL)
An internal undervoltage lockout circuit monitors VBUS
and keeps the input current limit circuitry off until VBUS
rises above the rising UVLO threshold (3.8V) and at least
50mV above VOUT. Hysteresis on the UVLO turns off the
input current limit if VBUS drops below 3.7V or 50mV below
VOUT. When this happens, system power at VOUT will be
drawn from the battery via the ideal diode. To minimize the
possibility of oscillation in and out of UVLO when using
resistive input supplies, the input current limit is reduced
as VBUS falls below 4.45V (typ).
Battery Charger
The LTC3577 includes a constant-current/constant-volt-
age battery charger with automatic recharge, automatic
termination by safety timer, low voltage trickle charging,
bad cell detection and thermistor sensor input for out of
temperature charge pausing. When a battery charge cycle
begins, the battery charger first determines if the battery
is deeply discharged. If the battery voltage is below VTRKL,
typically 2.85V, an automatic trickle charge feature sets the
battery charge current to 10% of the programmed value.
If the low voltage persists for more than one-half hour, the
battery charger automatically terminates. Once the battery
voltage is above 2.85V, the battery charger begins charging
in full power constant current mode. The current delivered
to the battery will try to reach 1000V/RPROG. Depending
on available input power and external load conditions, the
battery charger may or may not be able to charge at the
full programmed rate. The external load will always be
prioritized over the battery charge current. The USB cur-
rent limit programming will always be observed and only
additional current will be available to charge the battery.
When system loads are light, battery charge current will
be maximized.
Charge Termination
The battery charger has a built-in safety timer. When the
battery voltage approaches the float voltage, the charge
current begins to decrease as the LTC3577 enters constant
voltage mode. Once the battery charger detects that it
has entered constant voltage mode, the four hour safety
3577fa
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