AAT2552IRN-CAE-T1 Analogic Tech, AAT2552IRN-CAE-T1 Datasheet - Page 19

AAT2552IRN-CAE-T1

Manufacturer Part Number

AAT2552IRN-CAE-T1

Description

Charge Pumps Total Pwr Solution for Portable App

Manufacturer

Analogic Tech

Datasheet

1.AAT2552IRN-CAE-T1.pdf (31 pages)

Specifications of AAT2552IRN-CAE-T1

Package / Case

TDFN-16 EP

Mounting Style

SMD/SMT

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Part Number:

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last resistor should be placed between the LED cathode

and the STAT pin. LED current consumption will add to

the overall thermal power budget for the device pack-

age, hence it is good to keep the LED drive current to a

minimum. 2mA should be sufficient to drive most low-

cost green or red LEDs. It is not recommended to exceed

8mA for driving an individual status LED.

The required ballast resistor values can be estimated

using the following formulas:

Example:

Note: Red LED forward voltage (V

2mA.

Thermal Considerations

The AAT2552 is offered in a TDFN34-16 package which

can provide up to 2W of power dissipation when it is

properly bonded to a printed circuit board and has a

maximum thermal resistance of 50°C/W. Many consider-

ations should be taken into account when designing the

printed circuit board layout, as well as the placement of

the charger IC package in proximity to other heat gen-

erating devices in a given application design. The ambi-

ent temperature around the IC will also have an effect

on the thermal limits of a battery charging application.

The maximum limits that can be expected for a given

ambient condition can be estimated by the following dis-

cussion.

First, the maximum power dissipation for a given situa-

tion should be calculated:

Where:

SystemPower

2552.2009.01.1.3

D(MAX)

J(MAX)

= Maximum Power Dissipation (W)

= Package Thermal Resistance (°C/W)

= Maximum Device Junction Temperature (°C)

= Ambient Temperature (°C)

[135°C]

D(MAX)

(5.5V - 2.0 V)

2mA

ADP

J(MAX)

- V

LED

F(LED)

= 1.75kΩ

- T

) is typically 2.0V @

)

w w w . a n a l o g i c t e c h . c o m

Total Power Solution for Portable Applications

Figure 3 shows the relationship of maximum power dis-

sipation and ambient temperature of the AAT2552.

Next, the power dissipation of the battery charger can be

calculated by the following equation:

Where:

By substitution, we can derive the maximum charge cur-

rent before reaching the thermal limit condition (thermal

cycling). The maximum charge current is the key factor

when designing battery charger applications.

In general, the worst condition is the greatest voltage

drop across the IC, when battery voltage is charged up

to the preconditioning voltage threshold. Figure 4 shows

the maximum charge current in different ambient tem-

peratures.

ADP

BAT

= Total Power Dissipation by the Device

= ADP/USB Voltage

= Battery Voltage as Seen at the BAT Pin

= Constant Charge Current Programmed for the

= Quiescent Current Consumed by the Charger IC

Figure 3: Maximum Power Dissipation.

3.00

2.50

2.00

1.50

1.00

0.50

0.00

Application

for Normal Operation [0.5mA]

CH(MAX)

= [(V

CH(MAX)

ADP

PRODUCT DATASHEET

- V

BAT

J(MAX)

D(MAX)

) · I

- T

AAT2552178

(° ° C)

- V

+ (V

)

- V

BAT

· I

ADP

· I

)

)]

100

AAT2552IRN-CAE-T1 Analogic Tech, AAT2552IRN-CAE-T1 Datasheet - Page 19

AAT2552IRN-CAE-T1

Specifications of AAT2552IRN-CAE-T1

Available stocks

Related parts for AAT2552IRN-CAE-T1