LTC2941CDCB-1#PBF Linear Technology, LTC2941CDCB-1#PBF Datasheet - Page 9

LTC2941CDCB-1#PBF

Manufacturer Part Number

LTC2941CDCB-1#PBF

Description

IC, BATTERY FUEL GAUGE LI-ION 5.5V DFN-6

Manufacturer

Linear Technology

Datasheet

1.LTC2941CDCBTRMPBF.pdf (16 pages)

Specifications of LTC2941CDCB-1#PBF

Battery Management Function

Fuel Gauge, Charge Controller

Battery Type

Li-Ion

Supply Voltage Range

2.7V To 5.5V

Battery Ic Case Style

DFN

No. Of Pins

Rohs Compliant

Yes

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applicaTions inFormaTion

The value of the external sense resistor is determined by

the maximum input range of V

current of the application:

The choice of the external sense resistor value influences

the gain of the coulomb counter. A larger sense resistor

gives a larger differential voltage between SENSE

SENSE

coulomb counting. Thus the amount of charge represented

by the least significant bit (q

(registers C, D) is given by:

when the prescaler is set to its default value of M=128.

Note that 1mAh = 3.6A • s = 3.6C (coulombs).

Choosing R

applications where:

A. the battery capacity (Q

B. the battery capacity (Q

For case A: In low current applications using a large bat-

tery, choosing R

can lead to a q

accumulated charge may underflow before the battery is

the maximum current (I

LSB

SENSE

–

BAT

for the same current which results in more precise

= 0.085mAh •

> I

< I

≤

SENSE

MAX

LSB

SENSE

• 5.5 hours

• 0.1 hours

smaller than Q

= 50mV/I

according to R

50mΩ

SENSE

BAT

LSB

MAX

) is very small compared to

) is very large compared to

) of the accumulated charge

MAX

•

SENSE

128

BAT

is not sufficient in

SENSE

and the maximum

and the 16-bit

= 50mV/I

MAX

and

exhausted or overflow during charge. Choose in this case

a maximum R

In an example application where the maximum current is

lead to a sense resistor of 500mΩ. This gives a q

8.5µAh and the accumulated charge register can represent

a maximum battery capacity of Q

557mAh. If the battery is larger, R

For example, R

tery with a capacity of 1800mAh is used.

For case B: In applications using a small battery but having

a high maximum current, q

respect to the battery capacity. For example, if the battery

capacity is 100mAh and the maximum current is 1A, the

standard equation leads to choose a sense resistor value

of 50mΩ, resulting in:

The battery capacity then corresponds to only 1176 q

and less than 2% of the accumulated charge register is

utilized.

To preserve digital resolution in this case, the LTC2941

includes a programmable prescaler. Lowering the prescaler

factor M allows reducing q

lated charge registers C and D to the capacity of the battery.

The prescaling factor M can be chosen between 1 and its

default value 128. The charge LSB then becomes:

To use as much of the range of the accumulated charge

registers C and D as possible the prescaler factor M should

MAX

LSB

SENSE

= 100mA, calculating R

= 0.085mAh = 306mC

= 0.085mAh •

≤

0.085mAh • 2

SENSE

BAT

of:

must be reduced to 150mΩ if a bat-

50mΩ

SENSE

LSB

to better match the accumu-

• 50mΩ

SENSE

•

can get quite large with

128

BAT

SENSE

= 50mV/I

= 8.5µAh • 65535 =

LTC2941

must be lowered.

MAX

would

LSB

2941fa

LTC2941CDCB-1#PBF Linear Technology, LTC2941CDCB-1#PBF Datasheet - Page 9

LTC2941CDCB-1#PBF

Specifications of LTC2941CDCB-1#PBF

Available stocks

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