ISL6298-2CR3Z Intersil, ISL6298-2CR3Z Datasheet - Page 11

ISL6298-2CR3Z

Manufacturer Part Number

ISL6298-2CR3Z

Description

IC CHARGER LI-ION 4.2V 3X3 10DFN

Manufacturer

Intersil

Datasheet

1.ISL6298-2CR4Z.pdf (17 pages)

Specifications of ISL6298-2CR3Z

Function

Charge Management

Battery Type

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

Voltage - Supply

4.3 V ~ 6.5 V

Operating Temperature

-20°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

10-VFDFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ISL6298-2CR3Z

Manufacturer:

INTESIL

Quantity:

395

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the charger stays in the trickle mode is 15 cycles. Usually for

a recharge cycle, the trickle charge time is 15 cycles (t

in Figure 20). If the battery voltage falls below the trickle

charge threshold during the 15 cycles, the 15-cycle counter

is reset (not the total-trickle-charge-time counter) and the

charger remains in the trickle mode.

Disabling TIMEOUT Limit

The TOEN pin allows the user to disable the fast charge

TIMEOUT limit by pulling the TOEN pin to LOW or shorting it

to GND. When this happens, the charger never terminates.

The STATUS pin still issues the EOC indication when the

EOC condition is reached. The EOC indication is latched

and does not change until a new charge cycle starts,

initiated by the events listed in Table 1. Leaving the TOEN

pin floating is recommended to enable the TIMEOUT. Driving

the TOEN pin above 3.0V is not recommended. The trickle

charge time limit can never be disabled. For the 3x3 DFN

package option, the TOEN pin is left floating internally and,

therefore, the TIMEOUT cannot be disabled.

CC Mode Current Programming

The charge current is programmed by the IREF pin. There

are three ways to program the charge current:

The voltage of IREF is regulated to a 0.8V reference voltage

when not driven by any external source. The charging

current during the CC mode is 25,000 times that of the

current in the R

IREF pin is used, the charge current is,

The internal reference voltage at the IREF pin is capable of

sourcing less than 100µA current. When pulling down the

IREF pin with a logic circuit, the logic circuit needs to be able

to sink at least 100µA current.

The actual charge current may be affected by the thermal

foldback function. See the Thermal Foldback section for

more details.

Trickle Mode Current

The charge current in the trickle mode is 20% of the

programmed CC mode charge current, that is:

where I

CHARGE

1. driving the IREF pin above 1.3V

2. driving the IREF pin below 0.4V,

3. or using the R

TRICKLE

CHARGE











0.2 I

---------------- -

0.8V

IREF

255mA

100mA

IREF

⋅

is the charge current given in EQ. 3.

CHARGE

IREF

resistor. Hence, depending on how the

25000

as shown in the Typical Applications.

( )

IREF

1.3V

0.4V

(EQ. 3)

(EQ. 4)

to t

ISL6298

End-of-Charge (EOC) Current

The EOC current I

starts to indicate the end of the charge with the STATUS pin,

as shown in Figure 20. The I

When programming with the resistor, the I

equation below:

where R

and the ground, as shown in the Typical Application Circuit.

When connected to the V2P8 pin, the I

shorted to GND. Under this exception, I

ISL6298 in the 3x3 DFN package, the IMIN pin is connected

internally to the V2P8 pin.

EOC Conditions

The EOC indication is asserted when the following

conditions are satisfied simultaneously:

The two conditions can prevent prematurely indicating EOC

due to thermal foldback or other transient events.

Recharge

After a charge cycle is completed, charging is prohibited until

the battery voltage drops to a recharge threshold, V

(see Electrical Specifications). Then a new charge cycle

starts at point t

The safety timer is reset at t

2.8V Voltage Regulator

The V2P8 pin is the output of an internal 2.8V linear regulator.

The 2.8V is the voltage supply for the internal control circuit

and can also be used by external circuits, such as the NTC

thermistor circuit. The external load is not recommended to

exceed 2mA. The V2P8 pin is recommended to be decoupled

with a 1µF ceramic capacitor.

NTC Thermistor Interface

The TEMP pin offers an interface to an external NTC

thermistor. This pin has two functions: to monitor the battery

ambient temperature or to monitor the insertion of the battery.

The ISL6298 assumes that the NTC thermistor is inside the

battery pack. The battery and the NTC thermistor are inserted

or removed together. Removing the NTC thermistor disables

the charger.

Figure 21 shows the implementation of the TEMP pin. The

comparator CP1 monitors the existence of the NTC thermistor.

When the thermistor is removed, the TEMP pin voltage is

CHARGE

1. By connecting a resistor between the IMIN pin and

2. Or by connecting the IMIN pin to the V2P8 pin.

1. The battery voltage is above the recharge threshold, and

2. The charge current is lower than the EOC current.

EOC

ground,

2500

IMIN

given in EQ. 3, except when the IREF pin is

⋅

is the resistor connected between the IMIN pin

----------------

REF

IMIN

and ends at point t

EOC

2500

sets the level at which the charger

⋅

---------------- A

EOC

0.8V

IMIN

is set in two ways:

( )

, as shown in Figure 20.

EOC

is set to 1/10 of

is 5mA. For the

is set in the

March 9, 2006

RECHRG

FN9173.4

(EQ. 5)

ISL6298-2CR3Z Intersil, ISL6298-2CR3Z Datasheet - Page 11

ISL6298-2CR3Z

Specifications of ISL6298-2CR3Z

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