ISL6294A Datasheet, PDF(6/8 Page) Intersil Corporation

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ISL6294A Datasheet, PDF (6/8 Pages) Intersil Corporation – High Input Voltage Charger

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ISL6294A

to LOW when the trickle charge starts and rises to HIGH at

the EOC. After the EOC is reached, the charge current has

to rise to typically 76% IREF for the CHG signal to turn on

again, as shown in Figure 4. The current surge after EOC

can be caused by a load connected to the battery.

A thermal foldback function reduces the charge current

anytime when the die temperature reaches typically +115Â°C.

This function guarantees safe operation when the

printed-circuit board (PCB) is not capable of dissipating the

heat generated by the linear charger. The ISL6294A accepts

an input voltage up to 28V but disables charging when the

input voltage exceeds the OVP threshold, typically 7.3V, to

protect against unqualified or faulty AC adapters.

PPR Indication

The PPR pin is an open-drain output to indicate the

presence of the AC adapter. Whenever the input voltage is

higher than the POR threshold, the PPR pin turns on the

internal open-drain MOSFET to indicate a logic LOW signal,

independent on the EN-pin input. When the internal

open-drain FET is turned off, the PPR pin should leak less

than 1ÂµA current. When turned on, the PPR pin should be

able to sink at least 10mA current under all operating

conditions.

The PPR pin can be used to drive an LED (see Figure 1) or

to interface with a microprocessor.

Power-Good Range

The power-good range is defined by the following three

conditions:

1. VIN > VPOR

2. VIN - VBAT > VOS

3. VIN < VOVP

where the VOS is the offset voltage for the input and output

voltage comparator, discussed shortly, and the VOVP is the

overvoltage protection threshold given in the âElectrical

Specificationsâ table on page 2. All VPOR, VOS, and VOVP

have hysteresis, as given in the âElectrical Specificationsâ

table on page 2. The charger will not charge the battery if the

input voltage is not in the power-good range.

Input and Output Comparator

The charger will not be enabled unless the input voltage is

higher than the battery voltage by an offset voltage VOS.

The purpose of this comparator is to ensure that the charger

is turned off when the input power is removed from the

charger. Without this comparator, it is possible that the

charger will fail to power-down when the input is removed

and the current can leak through the PFET pass element to

continue biasing the POR and the Pre-Regulator blocks, as

shown in Figure 3.

CHG Indication

The CHG is an open-drain output capable to at least 10mA

current when the charger starts to charge and turns off when

the EOC current is reached. The CHG signal is interfaced

either with a microprocessor GPIO or an LED for indication.

EN Input

EN is an active-low logic input to enable the charger. Drive

the EN pin to LOW or leave it floating to enable the charger.

This pin has a 200kÎ© internal pull-down resistor so when left

floating, the input is equivalent to logic LOW. Drive this pin to

HIGH to disable the charger. The threshold for HIGH is given

in the âElectrical Specificationsâ table on page 2.

IREF Pin

The IREF pin has the two functions as described in the âPin

Descriptionsâ on page 3. When setting the fast charge

current, the charge current is guaranteed to have 10%

accuracy with the charge current set at 500mA. When

monitoring the charge current, the accuracy of the IREF pin

voltage vs the actual charge current has the same accuracy

as the gain from the IREF pin current to the actual charge

current. The accuracy is 10% at 500mA and is expected to

drop to 30% of the actual current (not the set constant

charge current) when the current drops to 50mA.

Operation Without the Battery

The ISL6294A relies on a battery for stability and is not

guaranteed to be stable if the battery is not connected. With

a battery, the charger will be stable with an output ceramic

decoupling capacitor in the range of 1ÂµF to 200ÂµF. The

maximum load current is limited by the dropout voltage or

the thermal foldback.

Dropout Voltage

The constant current may not be maintained due to the

rDS(ON) limit at a low input voltage. The worst case

operating temperature, thus if tested with 0.5A current and

3.8V battery voltage, constant current could not be

maintained when the input voltage is below 4.4V.

Thermal Foldback

The thermal foldback function starts to reduce the charge

current when the internal temperature reaches a typical

value of +115Â°C.

Applications Information

Input Capacitor Selection

The input capacitor is required to suppress the power supply

transient response during transitions. Mainly this capacitor is

selected to avoid oscillation during the start-up when the

input supply is passing the POR threshold and the VIN-VBAT

comparator offset voltage. When the battery voltage is above

the POR threshold, the VIN-VBAT offset voltage dominates

FN6821.2

December 11, 2008

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