LTC4001-1_15 Datasheet, PDF(16/20 Page) Linear Technology

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LTC4001-1_15 Datasheet, PDF (16/20 Pages) Linear Technology – 2A Synchronous Buck Li-Ion Charger

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LTC4001-1

APPLICATIONS INFORMATION

Insert the highest power dissipation ï¬gure into the following

equation to determine maximum junction temperature:

TJ = TA + (PD â¢ 37Â°C/W)

The LTC4001-1 includes chip overtemperature protection.

If junction temperature exceeds 160Â°C (typical), the chip

will stop battery charging until chip temperature drops

below 150Â°C.

Using the LTC4001-1 in Applications Without a Battery

The LTC4001-1 is normally used in end products that only

operate with the battery attached (Figure 6). Under these

conditions the battery is available to supply load transient

currents. For indeï¬nite operation with a powered wall

adapter there are only two requirementsâthat the aver-

age current drawn by the load is less than the high rate

charge current, and that VBAT stays above the trickle charge

threshold when the load is initially turned on and during

other load transients. When making this determination

take into account battery impedance. If battery voltage

is less than the trickle charge threshold, the system load

may be turned off until VBAT is high enough to meet these

conditions.

The situation changes dramatically with the battery re-

moved (Figure 7). Since the battery is absent, VBAT begins

at zero when a powered wall adapter is ï¬rst connected to

the battery charger. With a maximum load less than the

LTC4001-1 trickle charge current, battery voltage will ramp

up until VBAT crosses the trickle charge threshold. When this

occurs, the LTC4001-1 switches over from trickle charge

to high rate (PWM) charge mode but initially delivers zero

current (because the soft-start pin is at zero). Battery volt-

age drops as a result of the system load, crossing below

the trickle charge threshold. The charger re-enters trickle

charge mode and the battery voltage ramps up again until

the battery charger re-enters high rate mode.

The soft-start voltage is slightly higher this time around

(than in the previous PWM cycle). Every successive time

that the charger enters high rate (PWM) charge mode,

the soft-start pin is at a slightly higher voltage. Eventually

high rate charge mode begins with a soft-start voltage that

causes the PWM charger to provide more current than the

system load demands, and VBAT rapidly rises until the ï¬oat

voltage is reached.

For battery-less operation, system load current should be

restricted to less than the worst case trickle charge current

(preferably less than 30mA) when VBAT is less than 3.15V

(through an undervoltage lockout or other means). Above

VBAT = 3.15V, system load current less than or equal to the

high rate charge current is allowed. If operation without

a battery is required, additional low-ESR output ï¬ltering

improves start-up and other load transients. Battery-less

start-up is also improved if a 10k resistor is placed in

series with the soft-start capacitor.

WALL

ADAPTER

LTC4001-1

BATTERY

CHARGER

SYSTEM

LOAD

40011 F06

Li-Ion

BATTERY

Figure 6. Typical Application

40011fa

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