MAX8606ETD+T Maxim Integrated Products, MAX8606ETD+T Datasheet - Page 9

MAX8606ETD+T

Manufacturer Part Number

MAX8606ETD+T

Description

IC CHARGER LI+ W/SW 14TDFN

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX8606ETDT.pdf (14 pages)

Specifications of MAX8606ETD+T

Function

Charge Management

Battery Type

Lithium-Ion (Li-Ion)

Voltage - Supply

4.25 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

14-WFDFN Exposed Pad

Product

Charge Management

Output Voltage

3.3 V

Operating Supply Voltage

6 V to 14 V

Supply Current

1.2 mA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Charge Safety Timers

Yes

Mounting Style

SMD/SMT

Temperature Monitoring

Yes

Uvlo Start Threshold

4 V

Uvlo Stop Threshold

3.5 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The MAX8606 linear charger contains an internal linear

regulator to supply the power for the IC. Bypass VL to

GND with a 0.1µF ceramic capacitor. VL is regulated to

3.3V whenever the input voltage is above the battery

voltage and can source up to 500µA for external loads.

CHG is an open-drain output that indicates charger sta-

tus and can be used with an LED. CHG goes low dur-

ing charging. CHG goes high impedance when V

equals 4.2V and the charging current drops below

50mA. When the MAX8606 is used in conjunction with a

microprocessor (µP), connect a pullup resistor between

CHG and the logic I/O voltage to indicate charge status

to the µP. CHG also indicates a timer fault. If the inter-

nal prequal or fast-charge timer expires without com-

pleting the charge cycle, charging is suspended and

the CHG output “blinks” at 2.1Hz.

To prevent input transients, the rate of change of the

charge current is limited when the charger is turned on

or changes its current compliance. It takes approxi-

mately 1ms for the charger to go from 0mA to the maxi-

mum fast-charge current.

The MAX8606 includes a 30-minute prequalification

fault timer, an 8-hour fast-charge fault timer, and a 30-

minute top-off timer to terminate the changing cycle.

Drive TMR low to enable the internal timers. Drive TMR

high to disable the internal timers and allow an external

device to determine charge times.

The MAX8606 monitors the battery temperature with an

external NTC thermistor that is in close thermal contact

with the battery. Select a thermistor resistance that is

10kΩ at +25°C and has a beta of 3500 Kelvins. The IC

compares the resistance from THM to GND and sus-

pends charging when it is greater than 28.3kΩ or less

than 3.93kΩ, which translates to a battery temperature

of 0°C or +50°C, respectively. Connect THM to GND to

disable the temperature control function.

The MAX8606 contains a SYS output that delivers up to

Bypass SYS to GND with a 4.7µF or larger ceramic

capacitor. When V

MAX8606 is in suspend mode, the MAX8606 internally

connects SYS to BAT through a 50mΩ switch. When

charging a battery, the load on SYS is serviced first and

RMS

with Integrated 50m Ω Battery Switch in TDFN

at 3.5V to 4.2V to power an external system.

USB/AC Adapter, Li+ Linear Battery Charger

VL Internal Voltage Regulator

CHG Charge-Indicator Output

_______________________________________________________________________________________

BAT

exceeds 3.5V or when the

SYS Output

THM Input

TMR Input

Soft-Start

BAT

the remaining available current goes to charge the bat-

tery. SYS is connected to BAT when V

The MAX8606 contains an open-drain POK output that

goes low when a valid input source is detected at IN. A

valid input source is one whose voltage is between 4V

and 5.8V and exceeds the battery voltage by 250mV.

After a valid input has been established, charging is

sustained with inputs as low as 3.5V as long as the

input voltage remains above the battery voltage by at

least 55mV. POK is high impedance otherwise.

For USB applications, the charging current is internally

limited to 100mA or 500mA. For wall-cube applications

requiring a different current requirement, set the charg-

ing current with an external resistor from SETI to GND

where EN1 = high and EN2 = low.

The SETI input also enables the user to monitor the

charging current. Under fast-charge operation, the

SETI voltage regulates to 1.4V (EN1 low and EN2 high)

or 2.1V (EN1 high and EN2 low). As the charging cur-

rent decreases, V

the thermal regulation control or voltage regulation con-

trol (4.2V) of the MAX8606. V

the following equation:

The MAX8606 features a thermal limit that reduces the

charge current when the die temperature exceeds

+100°C. As the temperature increases, the IC lowers

the charge current by 50mA/°C above +100°C.

Connect a ceramic capacitor from SYS to GND as

close to the IC as possible for proper stability. Use a

4.7µF X5R ceramic capacitor for most applications.

Table 1. EN1 and EN2 Control

SETI

EN1

). Calculate R

SETI

EN2

Applications Information

= (I

= 8000 x 2.1V / (I

SETI

BAT

SETI

100mA

500mA

8000 x 2.1V / R

Suspend

Charge-Current Selection

decreases. This is due to either

+ I

as follows:

SYS

Capacitor Selection

) x R

Thermal Regulation

SETI

BAT

SETI

MODE

is calculated using

+ I

/ 8000

is not valid.

SYS

)

POK

MAX8606ETD+T Maxim Integrated Products, MAX8606ETD+T Datasheet - Page 9

MAX8606ETD+T

Specifications of MAX8606ETD+T

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