LTC4096 Datasheet, PDF(10/16 Page) Linear Technology – Dual Input Standalone Li-Ion Battery Chargers

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LTC4096 Datasheet, PDF (10/16 Pages) Linear Technology – Dual Input Standalone Li-Ion Battery Chargers

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LTC4096/LTC4096X

OPERATION

Programming Charge Termination

The charge cycle terminates when the charge current

falls below the programmed termination threshold during

constant-voltage mode. This threshold is set by connect-

ing an external resistor, RITERM, from the ITERM pin to

ground.

The charge termination current threshold (ITERMINATE) is

set by the following equation:

RITERM

100V

ITERMINATE

100V

RITERM

The termination condition is detected by using an internal

ï¬ltered comparator to monitor the ITERM pin. When the

ITERM pin voltage drops below 100mV* for longer than

tTERMINATE (typically 3ms), the charge cycle terminates,

charge current latches off and the LTC4096 enters standby

mode. When charging, transient loads on the BAT pin can

cause the ITERM pin to fall below 100mV for short periods

of time before the DC charge current has dropped below

the programmed termination current. The 3ms ï¬lter time

(tTERMINATE) on the termination comparator ensures that

transient loads of this nature do not result in premature

charge cycle termination. Once the average charge current

drops below the programmed termination threshold, the

LTC4096 terminates the charge cycle and stops providing

any current out of the BAT pin. In this state, any load on

the BAT pin must be supplied by the battery.

Low-Battery Charge Conditioning (Trickle Charge)

This feature ensures that deeply discharged batteries are

gradually charged before applying full charge current. If

the BAT pin voltage is below 2.9V, the LTC4096 supplies

1/10th of the full charge current to the battery until the

BAT pin rises above 2.9V. For example, if the charger is

programmed to charge at 800mA from the wall adapter

input and 500mA from the USB input, the charge current

during trickle charge mode would be 80mA and 50mA,

respectively.

The LTC4096X has no trickle charge mode.

Automatic Recharge

In standby mode, the charger sits idle and monitors the

battery voltage using a comparator with a 1.6ms ï¬lter time

(tRECHRG). A charge cycle automatically restarts when the

battery voltage falls below 4.15V (which corresponds to

approximately 80%-90% battery capacity). This ensures

that the battery is kept at, or near, a fully charged condi-

tion and eliminates the need for periodic charge cycle

initiations. If the battery is removed from the charger, a

sawtooth waveform appears at the battery output. This

is caused by the repeated cycling between termination

and recharge events. This cycling results in pulsing at the

â¯Câ¯Hâ¯Râ¯G output; an LED connected to this pin will exhibit

a blinking pattern, indicating to the user that a battery is

not present. The frequency of the sawtooth is dependent

on the amount of output capacitance.

Status Indicators

The charge status output (Câ¯ Hâ¯ Râ¯ Gâ¯ ) has two states: pull-down

and high impedance. The pull-down state indicates that

the LTC4096 is in a charge cycle. Once the charge cycle

has terminated or the LTC4096 is disabled, the pin state

becomes high impedance. The pull-down state is capable

of sinking up to 10mA.

The power present output (PWR) has two states: DCIN/

USBIN voltages and high impedance. These states are

described in Table 1 and the circuit is shown in Figure

2. The high impedance state indicates that voltage is

not present at either DCIN or USBIN, so LTC4096 lacks

sufï¬cient power to charge the battery. The PWR present

output is capable of sourcing up to 120mA steady state

and includes short circuit protection.

*Any external sources that hold the ITERM pin above 100mV will prevent the LTC4096 from

terminating a charge cycle.

4096xf

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