ISL6298 INTERSIL [Intersil Corporation], ISL6298 Datasheet - Page 12

ISL6298

Manufacturer Part Number

ISL6298

Description

Li-ion/Li-Polymer Battery Charger

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.ISL6298.pdf (17 pages)

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pulled up to the V2P8 pin voltage, higher than the Battery

Removal Threshold V

Comparators CP2 and CP3 form a window comparator and

the two transistors, Q1 and Q2, create hysteresis for the two

window thresholds respectively. When the TEMP pin voltage

is “out of the window,” determined by the V

the ISL6298 stops charging and indicates a fault condition.

When the temperature returns to within the window, the

charger re-starts a charge cycle. See the Application

Information for more details on the NTC thermistor selection.

Thermal Foldback

Over-heating is always a concern in a linear charger. The

maximum power dissipation usually occurs at the beginning

FIGURE 21. THE INTERNAL AND EXTERNAL CIRCUIT FOR

FIGURE 22. TYPICAL CHARGE CURVES USING A

Under

Temp

Battery

Removal

Over

Temp

REF

MIN

ISL6298

CP2

CP1

CP3

Trickle

Mode

THE NTC INTERFACE

Input Voltage

CONSTANT-VOLTAGE INPUT

Constant Current

RMV

TMAX

RMV

TMIN

Mode

, and the charger is disabled.

To TEMP Pin

TIMEOUT

2.8V

Constant Voltage

75K

Power Dissipation

25K

40K

60K

Mode

Battery Voltage

Charge Current

TMIN

V2P8

TEMP

GND

and V

Inhibit

TMAX

ISL6298

of a charge cycle when the battery voltage is at its minimum

but the charge current is at its maximum. The charge current

thermal foldback function in the ISL6298 frees users from

the over-heating concern.

Figure 22 shows the typical charge curves in a charge cycle,

using a constant voltage input. Once the internal

temperature reaches 100°C, the ISL6298 starts to reduce

the charge current to prevent further temperature rise. The

power dissipation is directly related to the thermal

impedance, which is related to the layout of the printed-

circuit board, and the ambient temperature. The dotted lines

show the power limit and the current waveforms in two cases

that the thermal foldback occurs. The current is reduced and

gradually increases to the constant charge current as the

battery voltage rises.

Usually the charge current should not drop below the EOC

current because of the thermal foldback. For some extreme

cases if that does happen, the charger does not indicate

end-of-charge unless the battery voltage is already above

the recharge threshold.

Indications

The ISL6298 has three indications: the input presence, the

charge status, and the fault indication. The input presence is

indicated by the V2P8 pin while the other two indications are

presented by the STATUS pin and FAULT pin respectively.

Figure 23 shows the V2P8 pin voltage vs. the input voltage.

The V2P8 pin outputs a 2.8V voltage (blue waveform) when

the input voltage (yellow waveform) rises above 3.4V rising

POR threshold and falls to zero volt when the input voltage

falls below the 2.4V falling POR threshold. The V2P8 pin can

be used as a logic signal for the input presence.

FIGURE 23. THE V2P8 PIN OUTPUT vs THE INPUT VOLTAGE

V2P8

AT THE VIN PIN. VERTICAL: 1V/DIV,

HORIZONTAL: 100ms/DIV

3.4V

2.8V

2.4V

July 20, 2005

FN9173.3

ISL6298 INTERSIL [Intersil Corporation], ISL6298 Datasheet - Page 12

ISL6298

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