LTC3577EUFF#PBF Linear Technology, LTC3577EUFF#PBF Datasheet - Page 26

LTC3577EUFF#PBF

Manufacturer Part Number

LTC3577EUFF#PBF

Description

IC PWR MANAGEMENT HANDHELD 44QFN

Manufacturer

Linear Technology

Datasheet

1.LTC3577EUFFPBF.pdf (54 pages)

Specifications of LTC3577EUFF#PBF

Applications

Handheld/Mobile Devices

Voltage - Supply

4.35 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

44-QFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Supply

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Current page: 26 of 54
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OPERATION

LTC3577/LTC3577-1

timer is started. After the safety timer expires, charging

of the battery will terminate and no more current will be

delivered.

Automatic Recharge

After the battery charger terminates, it will remain off

drawing only microamperes of current from the battery.

If the portable product remains in this state long enough,

the battery will eventually self discharge. To ensure that the

battery is always topped off, a charge cycle will automati-

cally begin when the battery voltage falls below V

(typically 4.0V for LTC3577-1 and 4.1V for LTC3577). In

the event that the safety timer is running when the battery

voltage falls below V

zero. To prevent brief excursions below V

setting the safety timer, the battery voltage must be below

timer will also restart if the V

high (e.g., V

Charge Current

The charge current is programmed using a single resistor

from PROG to ground. 1/1000th of the battery charge cur-

rent is delivered to PROG which will attempt to servo to

1.000V . Thus, the battery charge current will try to reach

1000 times the current in the PROG pin. The program

resistor and the charge current are calculated using the

following equations:

In either the constant-current or constant-voltage charging

modes, the PROG pin voltage will be proportional to the

actual charge current delivered to the battery. Therefore,

the actual charge current can be determined at any time

by monitoring the PROG pin voltage and using the fol-

lowing equation:

In many cases, the actual battery charge current, I

be lower than I

prioritization with the system load drawn from V

RECHRG

BAT

PROG

for more than 1.3ms. The charge cycle and safety

PROG

1000V

BUS

CHG

, is removed and then replaced).

• 1000

due to limited input current available and

, I

RECHRG

CHG

BUS

1000V

, the timer will reset back to

PROG

UVLO cycles low and then

RECHRG

from re-

OUT

BAT

RECHRG

, will

Thermal Regulation

To prevent thermal damage to the IC or surrounding

components, an internal thermal feedback loop will

automatically decrease the programmed charge current

if the die temperature rises to approximately 110°C.

Thermal regulation protects the LTC3577 from excessive

temperature due to high power operation or high ambient

thermal conditions and allows the user to push the limits

of the power handling capability with a given circuit board

design without risk of damaging the LTC3577 or external

components. The beneﬁ t of the LTC3577 thermal regula-

tion loop is that charge current can be set according to

actual conditions rather than worst-case conditions with

the assurance that the battery charger will automatically

reduce the current in worst-case conditions.

Charge Status Indication

The CHRG pin indicates the status of the battery charger. An

open-drain output, the CHRG pin can drive an indicator LED

through a current limiting resistor for human interfacing or

simply a pull-up resistor for microprocessor interfacing.

When charging begins, CHRG is pulled low and remains

low for the duration of a normal charge cycle. When charg-

ing is complete, i.e., the charger enters constant voltage

mode and the charge current has dropped to one-tenth

of the programmed value, the CHRG pin is released (high

impedance). The CHRG pin does not respond to the C/10

threshold if the LTC3577 is in input current limit. This

prevents false end-of-charge indications due to insufﬁ cient

power available to the battery charger. Even though charg-

ing is stopped during an NTC fault, the CHRG pin will stay

low indicating that charging is not complete.

Battery Charger Stability Considerations

The LTC3577’s battery charger contains both a constant-

voltage and a constant-current control loop. The constant-

voltage loop is stable without any compensation when a

battery is connected with low impedance leads. Excessive

lead length, however, may add enough series inductance

to require a bypass capacitor of at least 1μF from BAT to

GND. Furthermore, a 4.7μF capacitor in series with a 0.2Ω

to 1Ω resistor from BAT to GND is required to keep ripple

voltage low when the battery is disconnected.

3577fa

LTC3577EUFF#PBF Linear Technology, LTC3577EUFF#PBF Datasheet - Page 26

LTC3577EUFF#PBF

Specifications of LTC3577EUFF#PBF

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