AAT3685 AAT, AAT3685 Datasheet - Page 19

AAT3685

Manufacturer Part Number

AAT3685

Description

Lithium-Ion/Polymer Battery Charger

Manufacturer

AAT

Datasheet

1.AAT3685.pdf (23 pages)

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Where:

Example:

For an application where the fast charge current is

set to 500mA, V

tery voltage at 3.0V, what is the maximum ambient

temperature at which the thermal limiting will

become active?

Given:

Using Equation 4, calculate the device power dissi-

pation for the stated condition:

The maximum ambient temperature before the

AAT3685 thermal limit protection will shut down

charging can now be calculated using Equation 5:

Therefore, under the stated conditions for this

worst case power dissipation example, the

AAT3685 will suspend charging operations when

the ambient operating temperature rises above

89.81°C.

Eq. 6:

3685.2006.10.1.3

USB

BAT

Eq. 7:

= Ambient Temperature in Degrees C

= Maximum Device Junction Temperature

= Total Power Dissipation by the Device

= Package Thermal Resistance in °C/W

= 5.0V

= 3.0V

= 500mA

= 0.75mA

= 50°C/W

= 140°C

Protected by the Thermal Limit Control

= (5.0V - 3.0V) (500mA) + (5.0V · 0.75mA)

= 1.00375W

= 140°C - ( 50°C/W · 1.00375W)

= 89.81°C

USB

= 5.0V and the worst case bat-

Lithium-Ion/Polymer Battery Charger

Capacitor Selection

Input Capacitor

In general, it is good design practice to place a

decoupling capacitor between the ADP/USB pin

and ground. An input capacitor in the range of 1μF

to 22μF is recommended. If the source supply is

unregulated, it may be necessary to increase the

capacitance to keep the input voltage above the

under-voltage lockout threshold during device

enable and when battery charging is initiated.

If the AAT3685 input is to be used in a system with

an external power supply source rather than a USB

port V

then a C

used. A larger input capacitor in this application will

minimize switching or power bounce effects when

the power supply is "hot plugged" in. Likewise, a

10μF or greater input capacitor is recommended

for the USB input to help buffer the effects of USB

source power switching noise and input cable

impedance.

Output Capacitor

The AAT3685 only requires a 1μF ceramic capaci-

tor on the BAT pin to maintain circuit stability. This

value should be increased to 10μF or more if the

battery connection is made any distance from the

charger output. If the AAT3685 is to be used in

applications where the battery can be removed

from the charger, such as in the case of desktop

charging cradles, an output capacitor greater than

10μF may be required to prevent the device from

cycling on and off when no battery is present.

Printed Circuit Board Layout

Considerations

For the best results, it is recommended to physi-

cally place the battery pack as close as possible

to the AAT3685 BAT pin. To minimize voltage

drops on the PCB, keep the high current carrying

traces adequately wide. For maximum power dis-

sipation of the AAT3685 3x3mm TDFN package,

the metal substrate should be solder bonded to

the board. It is also recommended to maximize

the substrate contact to the PCB ground plane

layer to further increase local heat dissipation.

Refer to the AAT3685 evaluation board for a good

layout example (see Figures 5 and 6).

BUS

, such as a typical AC-to-DC wall adapter,

capacitor in the range of 10μF should be

AAT3685

AAT3685 AAT, AAT3685 Datasheet - Page 19

AAT3685

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