LTC1730-4 LINER [Linear Technology], LTC1730-4 Datasheet - Page 10

LTC1730-4

Manufacturer Part Number

LTC1730-4

Description

Lithium-Ion Battery Pulse Charger with Overcurrent Protection

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC1730-4.pdf (12 pages)

Current page: 10 of 12
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APPLICATIO S I FOR ATIO

LTC1730-4/LTC1730-4.2

Surface mount packages rely primarily on the copper leads

(pins) to conduct the heat from the package to the sur-

rounding PC board copper which is acting as a heat sink.

The ground pin is especially important for conducting heat

as well as providing an electrical connection. Use gener-

ous amounts of copper around the ground pin and also

consider feedthrough vias (plated through holes) to back-

side or inner copper layers to maximize power dissipation.

Table 1 lists the thermal resistance for the SO-8 package.

Measured values of thermal resistance for several differ-

ent board sizes and copper areas are listed. All measure-

ments were taken in still air on 0.062" FR-4 board with one

ounce copper.

Calculating Junction Temperature

Example: Find the maximum junction temperature for a

battery voltage of 4V (V

maximum ambient temperature of 75 C.

The power dissipated by the IC is:

The SO-8 package for the LTC1730 features a special lead

frame with a lower thermal resistance and higher allow-

able power dissipation. The junction-to-ambient thermal

resistance of this package when soldered to a PC board is

approximately 80 C/W depending on the copper area. So

the junction temperature rise above ambient will be

approximately:

The maximum junction temperature is equal to the maxi-

mum junction temperature rise above ambient plus the

maximum ambient temperature or:

BAT

P = (I

(0.354W)(80 C/W) = 28.3 C

JMAX

= (1A • 1A • 0.35 ) + (4V • 1mA)

= 0.35 + 0.004

= 0.354W

in the fast charge mode), charge current of 1A and a

BAT

= 75 C + 28.3 C = 103.3 C

• I

BAT

• R

DS(ON)

will collapse to approximately

) + (V

• I

)

Table 1. SO-8 Package Thermal Resistance

*Device is mounted on topside.

Output Voltage Selection (LTC1730EGN-4)

The float voltage at the BAT pin can be selected by the SEL

pin. Shorting the SEL pin to ground will set the float

voltage to 4.1V, while connecting it to V

This feature allows the charger to be used with different

types of Li-Ion cells.

ACPR Output Pin (LTC1730EGN-4)

When the input voltage is 40mV higher than the voltage at

the BAT pin, the ACPR pin is pulled low to ground to

indicate that the input supply (wall adapter) is applied.

After the input supply is removed, this pin becomes high

impedance. An internal 80ms delay prevents the LTC1730

from turning off if the voltage at the V

too close to V

FAULT Output Pin (LTC1730EGN-4)

The FAULT pin is pulled to ground when either one of the

following conditions is detected:

1. The voltage at the NTC/SHDN pin is out of the operation

2. The voltage at the BAT pin stays below 2.45V for 1/4 of

2500mm

1000mm

TOPSIDE

250mm

range. With a 10k negative temperature coefficient

thermistor placed near the battery pack, this pin indi-

cates that the temperature of the pack is either too cold

or too hot and the charger is suspended. Once the

temperature is back to the operational range, the FAULT

pin becomes high impedance and the charging re-

sumes.

the programmed charge time. If V

with 35mA of trickle charge current for 1/4 of the total

COPPER AREA

BACKSIDE

2500mm

BAT

because of the parasitic inductance.

BOARD AREA

2500mm

TOTAL

(JUNCTION-TO-AMBIENT)

BAT

THERMAL RESISTANCE

pin rings and gets

remains low even

sets it to 4.2V.

80 C/W

85 C/W

1730f

LTC1730-4 LINER [Linear Technology], LTC1730-4 Datasheet - Page 10

LTC1730-4

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