ISL6298-2CR3Z Intersil, ISL6298-2CR3Z Datasheet - Page 15

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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0°C and 55°C are R

respectively. Using EQ. 11 and EQ. 12 result in R

and R

Hysteresis Temperature Calculation

Using EQ. 6 is re-arranged as:

Substituting the ratio at the hysteresis threshold results in

the NTC thermistor resistance at the threshold. Continuing

the example above, the thermistor values are found to be

20.64kΩ and 4.37kΩ respectively at the low and high

hysteresis temperatures. The corresponding temperatures

are found from the Table 3 to be 7°C and 49°C respectively.

In other words, the hysteresis temperatures for the low and

high temperature limits are approximately 7°C and 6°C

respectively.

Temperature Tolerance Calculation

The temperature accuracy is affected by the accuracy of the

thresholds, R

maximum ratio K, maximum possible R

results in the maximum value of R

From the Electrical Specification table, the maximum K is

found to be 52.3%. Assuming the resistors have 1%

accuracy, the maximum R

is 356Ω. The resultant maximum R

30.6kΩ and the corresponding temperature is -3°C. Hence

the temperature tolerance is 3°C. Similarly, the high

temperature maximum thermistor value is 3.98kΩ. Hence,

the lowest temperature is 51°C and the tolerance is 4°C.

TEMP (°C)

T MAX

TABLE 3. RESISTANCE TABLE OF NCP15XH103F03RC

-3

------------ - R

1 K

= 27.9kΩ.

–

⋅

------------------------ - R

1 K

R-Low (kΩ)

–

, R

MAX

30.3641

26.6780

20.7560

19.9227

4.0833

4.9498

3.4634

–

MAX

, and the NTC thermistor. Using the

COLD

⋅

U MAX

= 27.2186kΩ and R

is 28.2kΩ and the minimum R

R-Center (kΩ)

–

31.0200

27.2186

21.1230

20.2666

4.1609

4.0262

3.5350

S MIN

from EQ. 13, that is:

is then found to be

, and minimum R

HOT

R-High (kΩ)

31.6869

27.7675

21.4944

20.6143

4.2395

4.1036

3.6076

= 3.535kΩ

= 360Ω

(EQ. 13)

(EQ. 14)

ISL6298

Working with Current-Limited Adapter

The ISL6298 minimizes the thermal dissipation when

dissipation can be further reduced when the adapter is

properly designed. For more information regarding working

with current-limited adapters, please refer to the ISL6292

datasheet available at http://www.intersil.com.

Board Layout Recommendations

The ISL6298 internal thermal foldback function limits the

charge current when the internal temperature reaches

approximately 100°C. In order to maximize the current

capability, it is very important that the exposed pad under the

package is properly soldered to the board and is connected

to other layers through thermal vias. More thermal vias and

more copper attached to the exposed pad usually result in

better thermal performance. On the other hand, the number

of vias is limited by the size of the pad. The exposed pad for

the 4x4 QFN package is able to have 5 vias. The 3x3 DFN

package allows 8 vias be placed in two rows. Since the pins

on the 3x3 DFN package are on only two sides, as much top

layer copper as possible should be connected to the

exposed pad to minimize the thermal impedance. Refer to

the ISL6298 evaluation boards for layout examples.

March 9, 2006

FN9173.4

ISL6298-2CR3Z Intersil, ISL6298-2CR3Z Datasheet - Page 15

ISL6298-2CR3Z

Specifications of ISL6298-2CR3Z

Available stocks

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