AAT2550 Datasheet, PDF(18/35 Page) Advanced Analogic Technologies – Total Power Solution for Portable Applications

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AAT2550 Datasheet, PDF (18/35 Pages) Advanced Analogic Technologies – Total Power Solution for Portable Applications

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AAT2550

Total Power Solution for Portable Applications

10000

1000

100

ADP

100

RSET (kÎ©)

Figure 2: IFASTCHARGE vs. RSET.

Protection Circuitry

Programmable Watchdog Timer

The AAT2550 contains a watchdog timing circuit for

the adapter input charging mode. Typically, a 0.1ÂµF

ceramic capacitor is connected between the CT pin

and ground. When a 0.1ÂµF ceramic capacitor is

used, the device will time a shutdown condition if

the trickle charge mode exceeds 25 minutes and a

combined trickle charge plus fast charge mode of

three hours. When the device transitions to the con-

stant voltage mode, the timing counter is reset and

will time out after three hours and shut down the

charger (see Table 2).

Mode

Trickle Charge (TC) Time Out

Trickle Charge (TC) +

Fast Charge (CC) Time Out

Constant Voltage (VC) Mode

Time Out

Time

25 minutes

3 hours

Table 2: Summary for a 0.1ÂµF Used for the

Timing Capacitor.

The CT pin is driven by a constant current source

and will provide a linear response to increases in

the timing capacitor value. Thus, if the timing capac-

itor were to be doubled from the nominal 0.1ÂµF

value, the time-out durations would be doubled.

If the programmable watchdog timer function is not

needed, it can be disabled by connecting the CT

pin to ground. The CT pin should not be left float-

ing or un-terminated, as this will cause errors in the

internal timing control circuit.

The constant current provided to charge the timing

capacitor is very small, and this pin is susceptible

to noise and changes in capacitance value.

Therefore, the timing capacitor should be physical-

ly located on the printed circuit board layout as

closely as possible to the CT pin. Since the accu-

racy of the internal timer is dominated by the

capacitance value, 10% tolerance or better ceram-

ic capacitors are recommended. Ceramic capacitor

materials, such as X7R and X5R type, are a good

choice for this application.

Over-Voltage Protection

An over-voltage event is defined as a condition

where the voltage on the BAT pin exceeds the max-

imum battery charge voltage and is set by the over-

voltage protection threshold (VOVP). If an over-volt-

age condition occurs, the AAT2550 charge control

will shut down the device until voltage on the BAT

pin drops below the over-voltage protection thresh-

old (VOVP). The AAT2550 will resume normal charg-

ing operation after the over-voltage condition is

removed. During an over-voltage event, the STAT

LEDs will report a system fault, and the actual fault

condition may be read via the DATA pin signal.

Over-Temperature Shutdown

The AAT2550 has a thermal protection control cir-

cuit which will shut down charging functions should

the internal die temperature exceed the preset

thermal limit threshold.

Battery Temperature Fault Monitoring

In the event of a battery over-temperature condi-

tion, the charge control will turn off the internal pass

device and report a battery temperature fault on the

DATA pin function. The STAT LEDs will also display

a system fault. After the system recovers from a

temperature fault, the device will resume charging

operation.

The AAT2550 checks battery temperature before

starting the charge cycle, as well as during all

stages of charging. This is accomplished by moni-

toring the voltage at the TS pin. This system is

intended to use negative temperature coefficient

thermistors (NTC), which are typically integrated

into the battery package. Most of the commonly

2550.2006.07.1.0

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