LTC3559-1_15 Datasheet, PDF(11/24 Page) Linear Technology – Linear USB Battery Charger with Dual Buck Regulators

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LTC3559-1_15 Datasheet, PDF (11/24 Pages) Linear Technology – Linear USB Battery Charger with Dual Buck Regulators

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LTC3559/LTC3559-1

OPERATION

The LTC3559/LTC3559-1 are linear battery chargers with

dual monolithic synchronous buck regulators. The buck

regulators are internally compensated and need no external

compensation components.

The battery charger employs a constant- current/constant-

voltage charging algorithm and is capable of charging a

single Li-Ion battery at charging currents up to 950mA. The

user can program the maximum charging current available

at the BAT pin via a single PROG resistor. The actual BAT

pin current is set by the status of the HPWR pin.

For proper operation, the BAT and PVIN pins must be tied

together. If a buck regulator is also enabled during the

battery charging operation, the net current charging the

battery may be lower than the actual programmed value.

Refer to Figure 1 for an explanation.

USB (5V)

RPROG

1.62k

500mA 300mA

VCC

BAT

PROG

PVIN 200mA

LTC3559/

LTC3559-1

SUSP

SINGLE Li-lon

CELL 3.6V

2.2Î¼F

HIGH

LOW (PULSE SKIP MODE)

HPWR

EN1

EN2

MODE

SW1

SW2

3559 F01

VOUT1

VOUT2

Figure 1. Current Being Delivered at the BAT Pin Is 500mA. Both Buck Regulators Are Enabled. The Sum of the

Average Input Currents Drawn by Both Buck Regulators Is 200mA. This Makes the Effective Battery Charging Current

Only 300mA. If the HPWR Pin Were Tied LO, the BAT Pin Current Would Be 100mA. With the Buck Regulator

Conditions Unchanged, This Would Cause the Battery to Discharge at 100mA

APPLICATIONS INFORMATION

Battery Charger Introduction

The LTC3559/LTC3559-1 have a linear battery charger

designed to charge single-cell lithium-ion batteries. The

charger uses a constant-current/constant-voltage charge

algorithm with a charge current programmable up to

950mA. Additional features include automatic recharge,

an internal termination timer, low-battery trickle charge

conditioning, bad-battery detection, and a thermistor

sensor input for out of temperature charge pausing.

Furthermore, the battery charger is capable of operating

from a USB power source. In this application, charge

current can be programmed to a maximum of 100mA or

500mA per USB power speciï¬cations.

Input Current vs Charge Current

The battery charger regulates the total current delivered

to the BAT pin; this is the charge current. To calculate the

total input current (i.e., the total current drawn from the

VCC pin), it is necessary to sum the battery charge current,

charger quiescent current and PROG pin current.

Undervoltage Lockout (UVLO)

The undervoltage lockout circuit monitors the input volt-

age (VCC) and disables the battery charger until VCC rises

above VUVLO (typically 4V). 200mV of hysteresis prevents

oscillations around the trip point. In addition, a differential

undervoltage lockout circuit disables the battery charger

when VCC falls to within VDUVLO (typically 50mV) of the

BAT voltage.

3559fb

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