LTC4055EUF#TRPBF Linear Technology, LTC4055EUF#TRPBF Datasheet - Page 15

LTC4055EUF#TRPBF

Manufacturer Part Number

LTC4055EUF#TRPBF

Description

IC USB PWR MNGR BATT CHRGR 16QFN

Manufacturer

Linear Technology

Datasheet

1.LTC4055EUFPBF.pdf (24 pages)

Specifications of LTC4055EUF#TRPBF

Function

Charge Management

Battery Type

Lithium-Ion (Li-Ion)

Voltage - Supply

4.35 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-WQFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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OPERATION

exceeding 500mA due to LTC4055/LTC4055-1 tolerances

and quiescent currents. This will give a typical current limit

of approximately 467mA in high power mode (HPWR = 1)

or 92mA in low power mode (HPWR = 0).

For best stability over temperature and time, 1% metal

ﬁ lm resistors are recommended.

Battery Charger

The battery charger circuits of the LTC4055/LTC4055-1

are designed for charging single-cell lithium-ion batteries.

Featuring an internal P-channel power MOSFET, the charger

uses a constant-current/constant-voltage charge algorithm

with programmable current and a programmable timer for

charge termination. Charge current can be programmed up

to 1A. The ﬁ nal ﬂ oat voltage accuracy is ±0.8% typical. No

blocking diode or sense resistor is required when charging

through IN1/IN2. The CHRG open-drain status output

provides information regarding the charging status of the

LTC4055/LTC4055-1 at all times. An NTC input provides the

option of charge qualiﬁ cation using battery temperature.

An internal thermal limit reduces the programmed charge

current if the die temperature attempts to rise above a

preset value of approximately 105°C. This feature protects

the LTC4055/LTC4055-1 from excessive temperature, and

allows the user to push the limits of the power handling

capability of a given circuit board without risk of dam-

aging the LTC4055/LTC4055-1. Another beneﬁ t of the

LTC4055/LTC4055-1 thermal limit is that charge current

can be set according to typical, not worst-case, ambient

temperatures for a given application with the assurance

that the charger will automatically reduce the current in

worst-case conditions.

An internal voltage regulation circuit, called undervoltage

current limit, UVCL, reduces the programmed charge

current to keep the voltage on V

This feature prevents the charger from cycling in and out

of undervoltage lockout due to resistive drops in the USB

or wall adapter cabling.

The charge cycle begins when the voltage at the input

(IN1/IN2) rises above the input UVLO level and the battery

voltage is below the recharge threshold. No charge current

actually ﬂ ows until the input voltage is greater than the

UVCL

level. At the beginning of the charge cycle, if the

or V

OUT

at least 4.4V.

battery voltage is below 2.8V, the charger goes into

trickle-charge mode to bring the cell voltage up to a safe

level for charging. The charger goes into the fast charge

constant-current mode once the voltage on the BAT pin rises

above 2.8V. In constant current mode, the charge current

is set by R

ﬂ oat voltage, the charge current begins to decrease as the

LTC4055/LTC4055-1 switches to constant-voltage mode.

An external capacitor on the TIMER pin sets the total

minimum charge time. When this time elapses the

charge cycle terminates and the CHRG pin assumes a

high impedance state. While charging in constant-cur-

rent mode, if the charge current is decreased due to load

current, undervoltage charge current limiting or thermal

regulation the charging time is automatically increased.

In other words, the charge time is extended inversely

proportional to charge current delivered to the battery.

For lithium-ion and similar batteries that require accurate

ﬁ nal ﬂ oat potential, the internal bandgap reference, voltage

ampliﬁ er and the resistor divider provide regulation with

±1% maximum accuracy.

TRICKLE CHARGE AND DEFECTIVE BATTERY

DETECTION

At the beginning of a charge cycle, if the battery voltage

is low (below 2.8V) the charger goes into trickle-charge

reducing the charge current to 10% of the full-scale current.

If the low battery voltage persists for one quarter of the

total charge time, the battery is assumed to be defective,

the charge cycle is terminated and the CHRG pin output

assumes a high impedance state. If for any reason the

battery voltage rises above ~2.8V, the charge cycle will

be restarted. To restart the charge cycle (i.e., when the

dead battery is replaced with a discharged battery), simply

remove the input voltage and reapply it, cycle the TIMER

pin to 0V or cycle the SHDN pin to 0V.

PROGRAMMING CHARGE CURRENT

The formula for programming the battery charge current,

when not being limited, is:

CHG

PROG

. When the battery approaches the ﬁ nal

LTC4055/LTC4055-1

•

48 500

PROG

•

48 500

4055fb

LTC4055EUF#TRPBF Linear Technology, LTC4055EUF#TRPBF Datasheet - Page 15

LTC4055EUF#TRPBF

Specifications of LTC4055EUF#TRPBF

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