AAT3686 Datasheet, PDF(15/24 Page) Advanced Analogic Technologies – USB Port/AC Adapter Lithium-Ion/Polymer Battery Charger

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AAT3686 Datasheet, PDF (15/24 Pages) Advanced Analogic Technologies – USB Port/AC Adapter Lithium-Ion/Polymer Battery Charger

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AAT3686

USB Port/AC Adapter

Lithium-Ion/Polymer Battery Charger

Programming Charge Current

The fast charge constant current charge level for

both adapter and USB input modes are pro-

grammed with set resistors placed between the

ADPSET, USBH, and USBL pins and ground. The

accuracy of the fast charge, as well as the precon-

ditioning trickle charge current, is dominated by the

tolerance of the set resistor used. For this reason,

1% tolerance metal film resistors are recommend-

ed for the set resistor function.

Fast charge constant current levels from 50mA to

1.5A can be set by selecting the appropriate resistor

value from Table 1. The RSET resistor should be con-

nected between the ADPSET pin and ground.

The USB input fast charge constant current charge

control provides for two current set levels, USBH

and USBL. The USBSEL pin is used to select the

high or low charge current levels in the USB charge

mode. When the USBSEL pin is pulled to a voltage

level above the VUSBSEL(H) threshold, the USBH cur-

rent level will be selected. Conversely, this pin

should be pulled below VUSBSEL(L) to enable the

USBL charge level. Typically, the two RSETH and

RSETL resistors for the USBH and USBL functions

are fixed for 500mA and 100mA USB fast charge

levels. However, these two charge levels can be set

to any level between 50mA and 500mA depending

upon the system design requirements for a given

USB charge application. Refer to Table 1 and

Figure 3 for recommended RSETH and RSETL values.

10000

1000

USBL

ADP

100

USBH

100

RSET (kÎ©)

Figure 3: IFASTCHARGE vs. RSET.

Protection Circuitry

Programmable Watchdog Timer

The AAT3686 contains a watchdog timing circuit for

the adapter input charging mode. No watchdog tim-

ing functions are active for the USB input mode.

Typically, a 0.1ÂµF ceramic capacitor is connected

between the TC 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 constant 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

capacitor were to be doubled from the nominal

0.1ÂµF value, the time-out times 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.

3686.2006.10.1.9

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