ltc4058x-4.2 Linear Technology Corporation, ltc4058x-4.2 Datasheet - Page 10

ltc4058x-4.2

Manufacturer Part Number

ltc4058x-4.2

Description

Ltc4058x-4.2 - Standalone Linear Li-ion Battery Chargers With Thermal Regulation In Dfn

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC4058X-4.2.pdf (12 pages)

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APPLICATIO S I FOR ATIO

LTC4058-4.2/LTC4058X-4.2

The LTC4058 can be used above 52 C ambient but the

charge current will be reduced from 800mA. The approxi-

mate current at a given ambient temperature can be

approximated by:

Using the previous example with an ambient temperature

of 60 C, the charge current will be reduced to

approximately:

Moreover, when thermal feedback reduces the charge cur-

rent the voltage at the PROG pin is also reduced proportion-

ally as discussed in the Operation section. It is important

to remember that LTC4058 applications do not need to be

designed for worst-case thermal conditions since the IC will

automatically reduce power dissipation when the junction

temperature reaches approximately 120 C.

Thermal Considerations

In order to deliver maximum charge current under all

conditions, it is critical that the exposed metal pad on the

backside of the LTC4058 package is soldered to the PC

board ground. Correctly soldered to a 2500mm

sided 1oz copper board, the LTC4058 has a thermal

resistance of approximately 40 C/W. Failure to make

thermal contact between the exposed pad on the back-

side of the package and the copper board will result in

thermal resistances far greater than 40 C/W. As an

example, a correctly soldered LTC4058 can deliver over

800mA to a battery from a 5V supply at room tempera-

ture. Without a backside thermal connection, this num-

ber will drop considerably.

Many types of capacitors can be used for input bypassing,

however, caution must be exercised when using multilayer

BAT

Bypass Capacitor

706

120

– .

–

3 3

BAT

C T

–

•

C W

C A

double-

ceramic capacitors. Because of the self-resonant and high

Q characteristics of some types of ceramic capacitors,

high voltage transients can be generated under some

start-up conditions such as connecting the charger input

to a live power source. Adding a 1.5 resistor in series

with an X5R ceramic capacitor will minimize start-up

voltage transients. For more information, see Application

Note 88.

Charge Current Soft-Start

The LTC4058 includes a soft-start circuit to minimize the

inrush current at the start of a charge cycle. When a charge

cycle is initiated, the charge current ramps from zero to

the full-scale current over a period of approximately 100 s.

This has the effect of minimizing the transient current load

on the power supply during start-up.

USB and Wall Adapter Power

The LTC4058 allows charging from both a wall adapter

and a USB port. Figure 3 shows an example of how to

combine wall adapter and USB power inputs. A P-channel

MOSFET, MP1, is used to prevent back conducting into

the USB port when a wall adapter is present and a

Schottky diode, D1, is used to prevent USB power loss

through the 1k pull-down resistor.

Typically a wall adapter can supply more current than the

500mA-limited USB port. Therefore, an N-channel

MOSFET, MN1, and an extra 3.3k program resistor are

used to increase the charge current to 800mA when the

wall adapter is present.

USB POWER

500mA I

800mA I

ADAPTER

5V WALL

Figure 3. Combining Wall Adapter and USB Power

CHG

MP1

4, 9

MN1

LTC4058-4.2

GND

BSENSE

3.3k

PROG

BAT

CHG

405842 F03

Li-Ion

BATTERY

sn405842 405842fs

SYSTEM

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ltc4058x-4.2 Linear Technology Corporation, ltc4058x-4.2 Datasheet - Page 10

ltc4058x-4.2

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