ISL6299AIRZ-T Intersil, ISL6299AIRZ-T Datasheet - Page 6

ISL6299AIRZ-T

Manufacturer Part Number

ISL6299AIRZ-T

Description

IC CHARGER LI-ION POLYMER 10-DFN

Manufacturer

Intersil

Datasheet

1.ISL6299AIRZ-T.pdf (8 pages)

Specifications of ISL6299AIRZ-T

Function

Charge Management

Battery Type

Lithium-Ion (Li-Ion), Lithium-Polymer (Li-Pol)

Voltage - Supply

4.3 V ~ 24 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

10-VFDFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

ISL6299AIRZ-TTR

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USBON (Pin 7)

The USBON pin is a control input to turn off the USB charge

function if desired. Connect to LOW or leave floating to turn

off USB charge.

GND (Pin 8)

System ground.

ICDL (Pin 9)

The ICDL pin has two functions. The first function is to

program the cradle charge current during the constant-

current mode. The voltage of this pin is 1.22V during the

constant-current mode of the cradle charger. The constant-

current mode current is programmed by the following

equations:

where R

(see the Typical Application).

It is recommended that the charge current be programmed

in the range of 350mA to 650mA.

The second function of the ICDL pin is to monitor the actual

charge current. The voltage of this pin, V

to the actual charge current, I

The cradle charge current should be programmed equal or

higher than the USB current; otherwise, the ICDL pin voltage

will be higher than 1.22V during the constant current mode

when the USB charger is working. The charger still works

properly but the accuracy of the current monitoring voltage

degrades and saturates at approximately 2.1V.

BAT (Pin 10)

Charger output pin. Connect this pin to the battery pack or

the battery cell. A 1µF or larger value ceramic capacitor is

recommended for decoupling. The charger relies on the

battery for stability so a battery should always be connected

to the BAT pin.

Description

The ISL6299A is designed for a single-cell Li-ion or Li-

polymer battery charging circuit that accepts both a USB port

and a desktop cradle as its power source. While the charge

current from the USB input source is fixed at 380mA, the

charge current from the cradle input is programmable

between 0.1A and 1.0A by the resistor R

end-of-charge current is fixed at typically 80mA for the USB

input and programmable for the cradle input by the resistor

CLD

CDL

IMIN

21242.1

-------------------- - 0.188

16685.5

-------------------- - 0.026

ICDL

is the resistor in

–

CHG

Ω,

0.1A I

0.7A

connected to the ICDL pin

CLD

CDL

ICDL

0.7A

1.1A

, is proportional

. Similarly, the

ISL6299A

Input Auto Selection

When both input sources are present, the charger selects

only one power source to charge the battery. When the

CRDL input is higher than the POR threshold, CRDL is

selected as the power source. Otherwise the USB input is

selected. If the CRDL input voltage is below the battery

voltage but the USB input voltage is higher than the battery

voltage, then the USB input is used to charge the battery.

The control circuit always breaks both internal power

devices before switching from one power source to the other

to avoid a cross conduction of both power MOSFETs.

USB Charge Current

When the USB port is selected as the power source, the

charge current enabled by the logic input at the USBON pin.

When the USBON is driven to logic LOW, the charger is

disabled. When the USBON is driven to logic HIGH, the

charge current is fixed at a typical value of 380mA. Thus for

the USB input, the USBON pin has a similar function as the

EN pin. The following table describes the USB charge

control by both the USBON pin and EN pin:

The USBON pin is equivalent to a logic LOW when left

floating. Typically the P-channel MOSFET for the USB input

has an r

380mA charge current, the typical head room is 260mV.

Thus, if the input voltage drops to a level that the voltage

difference between the USB pin and the BAT pin is less than

260mV, the r

current; and the charger drops out the constant current

regulation.

Cradle Charge Current

The cradle charge current is enabled by the EN pin only, the

USBON pin has no control on the cradle charge current. The

cradle charge current is programmed with the external

resistor connected between the ICDL pin and the GND pin.

The current can be calculated with one of the equations

given in the ICDL pin description. Two equations are used

for the cradle current calculation, each corresponds to a

different range of currents. The typical r

P-channel MOSFET for the CRDL input is 600mΩ at room

temperature. When the head room between the input and

output voltages is small, the actual charge current, similar to

the USB case, could be limited by the r

hand, if the head room between the input and output

voltages is large, the charge current may be limited by the

thermal foldback threshold.

USBON = LOW

USBON = HIGH

DS(ON)

TABLE 1. USB CHARGE CONTROL

of 700mΩ at room temperature. With a

becomes a limiting factor of the charge

Disabled

Enabled

EN = LOW

DS(ON).

DS(ON)

Disabled

EN = HIGH

of the

On the other

January 3, 2006

FN9212.1

ISL6299AIRZ-T Intersil, ISL6299AIRZ-T Datasheet - Page 6

ISL6299AIRZ-T

Specifications of ISL6299AIRZ-T

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