LTC3550EDHC-1#TR Linear Technology, LTC3550EDHC-1#TR Datasheet - Page 10
LTC3550EDHC-1#TR
Manufacturer Part Number
LTC3550EDHC-1#TR
Description
IC,Battery Management,CMOS,LLCC,16PIN,PLASTIC
Manufacturer
Linear Technology
Type
Battery Chargerr
Datasheet
1.LTC3550EDHC-1TR.pdf
(24 pages)
Specifications of LTC3550EDHC-1#TR
Battery Type
Li-Ion
Output Current
800mA
Output Voltage
4.2V
Operating Supply Voltage (min)
2.5V
Operating Supply Voltage (max)
5.5V
Operating Temp Range
-40C to 85C
Mounting
Surface Mount
Pin Count
16
Operating Temperature Classification
Industrial
Lead Free Status / Rohs Status
Not Compliant
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PI FU CTIO S
LTC3550-1
USBIN (Pin 1): USB Input Supply Pin. Provides power to
the battery charger. The maximum supply current is 650mA.
This should be bypassed with a 1µF capacitor.
IUSB (Pin 2): USB Charge Current Program and Monitor
Pin. The charge current can be set by connecting a resis-
tor, R
mode, this pin servos to 1V. The voltage on this pin can
be used to measure the charge current delivered from the
USB input using the following formula:
ITERM (Pin 3): Termination Current Threshold Program
Pin. The current termination threshold, I
set by connecting a resistor, R
is set by the following formula:
When the charge current, I
threshold, charging stops and the ⎯ C ⎯ H ⎯ R ⎯ G output becomes
high impedance.
This pin is internally clamped to approximately 1.5V. Driv-
ing this pin to voltages beyond the clamp voltage should
be avoided.
⎯ P ⎯ W ⎯ R (Pin 4): Open-Drain Power Supply Status Output.
When the DCIN or USBIN pin voltage is suffi cient to
begin charging (i.e., when the supply is greater than
the undervoltage lockout threshold and at least 180mV
above the battery terminal), the ⎯ P ⎯ W ⎯ R pin is pulled low by
an internal N-channel MOSFET. Otherwise, ⎯ P ⎯ W ⎯ R is high
impedance. The output is capable of sinking up to 10mA,
making it suitable for driving an LED.
⎯ C ⎯ H ⎯ R ⎯ G (Pin 5): Open-Drain Charge Status Output. When
the LTC3550-1 is charging, the ⎯ C ⎯ H ⎯ R ⎯ G pin is pulled low by
an internal N-channel MOSFET. When the charge cycle is
completed, ⎯ C ⎯ H ⎯ R ⎯ G becomes high impedance. This output
is capable of sinking up to 10mA, making it suitable for
driving an LED.
V
feedback voltage from the buck regulator output.
10
OUT
U
I
I
BAT
TERMINATE
IUSB
(Pin 6): Output Voltage Feedback Pin. Receives the
=
, to ground. When charging in constant-current
R
U
V
IUSB
IUSB
=
• 1000
R
100
ITERM
U
V
BAT
ITERM
, falls below the termination
, to ground. I
TERMINATE
TERMINATE
, can be
V
closely decoupled to GND (Pins 8, 9) with a 2.2µF or
greater ceramic capacitor.
GND (Pins 8, 9): Ground.
SW (Pin 10): Switch Node Connection to Inductor. This
pin connects to the drains of the internal main (top) and
synchronous (bottom) power MOSFET switches.
RUN (Pin 11): Buck Regulator Run Control Input. Forcing
this pin above 1.5V enables the regulator. Forcing this pin
below 0.3V shuts it down. In shutdown, all buck regulator
functions are disabled drawing <1µA supply current from
V
ENABLE (Pin 12): Charger Enable Input. When the
LTC3550-1 is charging from the DCIN source, a logic low
on this pin enables the charger. When the LTC3550-1 is
charging from the USBIN source, a logic high on this pin
enables the charger. If this input is left fl oating, an internal
2MΩ pulldown resistor defaults the LTC3550-1 to charge
when a wall adapter is applied and to shut down if only
the USB source is applied.
USBPWR (Pin 13): Open-Drain USB Power Status Output.
When the voltage on the USBIN pin is suffi cient to begin
charging and there is insuffi cient power at DCIN, the
USBPWR pin is high impedance. In all other cases, this pin
is pulled low by an internal N-channel MOSFET, provided
that there is power present at DCIN, USBIN, or BAT inputs.
This output is capable of sinking up to 1mA, making it
suitable for driving high impedance logic inputs.
IDC (Pin 14): Wall Adapter Charge Current Program and
Monitor Pin. The charge current is set by connecting a
resistor, R
current mode, this pin servos to 1V. The voltage on this
pin can be used to measure the charge current using the
following formula:
BAT (Pin 15): Charger Output. This pin provides charge
current to the battery and regulates the fi nal fl oat voltage
to 4.2V.
CC
CC
I
BAT
. Do not leave RUN fl oating.
(Pin 7): Buck Regulator Input Supply Pin. Must be
=
R
V
IDC
IDC
IDC
, to ground. When charging in constant-
• 1000
35501f
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