LTC4096EDD#PBF Datasheet LTC4096EDD#PBF, LTC4096XEDD#PBF, LTC4096XEDD#TRPBF | P7-P9

LTC4096/LTC4096X

4096xf

TEMPERATURE (°C)

–50 –25

(V)

05025 75 100

DCIN UVLO

USBIN UVLO

4096 G29

4.10

3.95

3.90

3.85

3.80

3.75

4.05

4.00

3.70

PIN FUNCTIONS

DCIN (Pin 1): Wall Adapter Input Supply Pin. Provides

power to the battery charger. The maximum supply

current is 1.2A. This pin should be bypassed with a 1µF

capacitor.

USBIN (Pin 2): USB Input Supply Pin. Provides power to

the battery charger. The maximum supply current is 1A.

This pin should be bypassed with a 1µF capacitor.

PWR (Pin 3): Power Present Output. When the DCIN or

USBIN pin voltage is sufﬁ cient to begin charging (i.e. when

the DCIN or USBIN supply is greater than the undervoltage

lockout thresholds and at least 100mV or 150mV, re-

spectively, above the battery terminal), the PWR pin is

connected to the appropriate input through an internal

P-channel MOSFET. If sufﬁ cient voltage to charge is not

present on DCIN or USBIN the PWR pin is high impedance.

This output is able to source up to 120mA.

⎯

G (Pin 4): Open-Drain Charge Status Output. When

the LTC4096 is charging, the

⎯

G pin is pulled low by

an internal N-channel MOSFET. When the charge cycle is

completed,

⎯

G becomes high impedance. This output

is capable of sinking up to 10mA, making it suitable for

driving an LED.

SUSP (Pin 5): Charge Enable Input. A logic low on this

pin enables the charger. If left ﬂ oating, an internal 3.4MΩ

pull-down resistor defaults the LTC4096 to charge mode.

Pull this pin high for shutdown.

ITERM (Pin 6): Charge Termination Current Threshold

Program. The termination current threshold, I

TERMINATE

, is

set by connecting a resistor, R

ITERM

, to ground. I

TERMINATE

is set by the following formula:

TERMINATE

ITERM

100

When the battery current, I

BAT

, falls below the termination

threshold, charging stops and the

⎯

G output becomes

high impedance.

IUSB (Pin 7): Charge Current Program for USB Power.

The charge current is set by connecting a resistor, R

IUSB

to ground. When charging in constant-current mode, this

pin servos to 1V. The voltage on this pin can be used to

measure the battery current delivered from the USBIN

input using the following formula:

BAT

IUSB

= • 1000

TYPICAL PERFORMANCE CHARACTERISTICS

Shutdown Supply Current vs

Temperature and V

USBIN

Undervoltage Lockout Voltage

(Falling) vs Temperature

= 25°C, unless otherwise noted.

USBIN

(µA)

4096 G28

SUSP = V

USBIN

DCIN

= 0V

USBIN

= 4.25V

USBIN

= 5.5V

TEMPERATURE (°C)

–50 –25 0 5025 75 100

LTC4096/LTC4096X

4096xf

BLOCK DIAGRAM

–

RECHRG

TRICKLE

TERM

LOGIC

4.15V

BAT

4.2V

BAT

2.9V

100mV

BAT

/1000

BAT

/1000 I

BAT

/1000

6 9 7

DC_ENABLE USB_ENABLE

CHARGER CONTROL

CC/CV

REGULATOR

CC/CV

REGULATOR

101 2

ITERM

IUSB

IDC

ITERM IUSBIDC

GND

8, 11

150°C

–

115°C

DIE

USBIN

HIGH-Z

DCIN

USBONDCON

USBIN UVLODCIN UVLO

DCIN BAT USBIN

PWR

SUSP

CHRG

TERMINATION

TRICKLE

CHARGE*

RECHARGE

THERMAL

REGULATION

AND

SHUTDOWN

10mA MAX

4096 BD

*NOT PRESENT IN THE "X" VERSION

DC-PWR

USB-PWR

GND (Pin 8): Ground.

IDC (Pin 9): Charge Current Program for Wall Adapter

Power. The charge current is set by connecting a resistor,

IDC

, to ground. When charging in constant-current mode,

this pin servos to 1V. The voltage on this pin can be used

to measure the battery current delivered from the DCIN

input using the following formula:

BAT

IDC

= •1000

BAT (Pin 10): Charger Output. This pin provides charge

current to the battery and regulates the ﬁ nal ﬂ oat voltage

to 4.2V.

Exposed Pad (Pin 11): GND. The exposed backside of the

package is ground and must be soldered to PC board ground

for electrical connection and maximum heat transfer.

PIN FUNCTIONS

LTC4096/LTC4096X

4096xf

OPERATION

The LTC4096 is designed to efﬁ ciently manage charging a

single-cell lithium-ion battery from two separate voltage

sources: a wall adapter and USB power bus. Using the

constant-current/constant-voltage algorithm, the charger

can deliver up to 1.2A of charge current from the wall

adapter supply or up to 1A of charge current from the

USB supply with a ﬁ nal ﬂ oat voltage accuracy of ±0.6%.

The LTC4096 has two internal P-channel power MOSFETs,

thermal regulation and shut down circuitry. No blocking

diodes or external sense resistors are required.

Power Source Selection

The LTC4096 can charge a battery from either the wall

adapter input or the USB port input. The LTC4096 automati-

cally senses the presence of voltage at each input. If both

voltage sources are present, the LTC4096 defaults to the

wall adapter source provided sufﬁ cient voltage is present

at the DCIN input. “Sufﬁ cient voltage” is deﬁ ned as:

• Supply voltage is greater than the UVLO threshold.

• Supply voltage is greater than the battery voltage by

30mV (100mV or 150mV rising, 30mV falling).

The power present output pin (PWR) indicates that suf-

ﬁ cient input voltage is available. Table 1 describes the

behavior of this status output.

Table 1. Power Source Selection

USBIN

> 4V and

USBIN

> BAT + 30mV

USBIN

< 4V or

USBIN

< BAT + 30mV

DCIN

> 4.2V and

DCIN

> BAT + 30mV

Charger powered from wall adapter source;

PWR

= V

DCIN

– R

DC-PWR

• I

PWR

USBIN current < 25µA

Charger powered from wall adapter source

PWR

= V

DCIN

– R

DC-PWR

• I

PWR

DCIN

< 4.2V or

DCIN

< BAT + 30mV

Charger powered from USB source;

PWR

= V

USBIN

– R

USB-PWR

• I

PWR

No charging

PWR: Hi-Z

Programming and Monitoring Charge Current

The charge current delivered to the battery from the wall

adapter supply is programmed using a single resistor from

the IDC pin to ground.

IDC

CHRG DC

IDC

1000 1000

()

Similarly, the charge current from the USB supply is

programmed using a single resistor from the IUSB pin

to ground.

IUSB

CHRG USB

IUS

1000 1000

()

Charge current out of the BAT pin can be determined at

any time by monitoring the IDC or IUSB pin voltage and

applying the following equations:

ch ing from wall adapter

BAT

IDC

= •,(arg1000 ))

•,(arg supI

ch ing from USB p

BAT

IUSB

= 1000 lly)

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P16

LTC4096EDD#PBF

Mfr. #:

Buy LTC4096EDD#PBF

Manufacturer:

Analog Devices / Linear Technology

Description:

Battery Management Dual Input Standalone Li-Ion Battery Charger without Trickle Charge

Lifecycle:

New from this manufacturer.

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LTC4096EDD#PBF

LTC4096EDD#PBF

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