MAX8934BETI+T Maxim Integrated Products, MAX8934BETI+T Datasheet - Page 20

MAX8934BETI+T

Manufacturer Part Number

MAX8934BETI+T

Description

IC BATTERY CHARGER DUAL 28TQFN

Manufacturer

Maxim Integrated Products

Series

Smart Power Selector™r

Datasheet

1.MAX8934AETIT.pdf (31 pages)

Specifications of MAX8934BETI+T

Function

Charge Management

Battery Type

Lithium-Ion (Li-Ion), Lithium-Polymer (Li-Pol)

Voltage - Supply

4.1 V ~ 6.6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-TQFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Dual-Input Linear Chargers, Smart Power Selector

with Advanced Battery Temperature Monitoring

The MAX8934_ Smart Power Selector seamlessly distrib-

utes power among the external inputs, the battery, and

the system load (see the Typical Operating Circuit). The

basic functions performed are:

U With both an external power supply (USB or adapter)

U When the battery is connected and there is no external

U When an external power input is connected and there

A thermal-limiting circuit reduces the battery charge

rate and external power-source current to prevent the

MAX8934_ from overheating.

An internal 40mI MOSFET connects SYS to BATT (Q3

in the Typical Operating Circuit) when no voltage source

is available at DC or USB. When an external source is

detected at DC or USB, this switch is opened and SYS

is powered from the valid input source through the input

limiter.

The SYS-BATT switch also holds up SYS when the system

load exceeds the input current limit. If that should happen,

the SYS-BATT switch turns on so that the battery supplies

additional SYS load current. If the system load continu-

ously exceeds the input current limit, the battery does not

charge, even though external power is connected. This is

not expected to occur in most cases, since high loads usu-

ally occur only in short peaks. During these peaks, battery

energy is used, but at all other times the battery charges.

The input voltage limiter is essentially an LDO regula-

tor. While in dropout, the regulator dissipates a small

Operating Circuit) between DC and SYS. With an AC

adapter or USB source connected, the input limiter

distributes power from the external power source to the

system load and battery charger. In addition to the input

limiter’s primary function of passing power to the system

R loss through the 0.2I MOSFET (Q1 in the Typical

and battery connected:

U When the system load requirements are less than

U When the system load requirements exceed the

power input, the system is powered from the battery.

is no battery, the system is powered from the external

power input.

_____________________________________________________________________________________

the input current limit, the battery is charged with

residual power from the input.

input current limit, the battery supplies supplemen-

tal current to the load.

Smart Power Selector

System Load Switch

Input Limiter

and charger loads at SYS, it performs several additional

functions to optimize use of available power.

If an input voltage is above the overvoltage threshold

(6.9V typ), the MAX8934_ enters overvoltage lockout

(OVLO). OVLO protects the MAX8934_ and downstream

circuitry from high-voltage stress up to 14V at DC and

8V at USB. In OVLO, V

sees overvoltage (Q1, Q2, Typical Operating Circuit)

opens, and the appropriate power-monitor output (DOK,

UOK) is high impedance, and CHG is high impedance.

If both DC and USB see overvoltage, both input switches

(Q1 and Q2, Typical Operating Circuit) open and the

charger turns off. The BATT-to-SYS switch (Q3, Typical

Operating Circuit) closes, allowing the battery to power

SYS. An input is also invalid if it is less than BATT, or less

than the DC undervoltage threshold of 3.5V (falling). With

an invalid input voltage, SYS connects to BATT through a

40mI switch (Q3, Typical Operating Circuit).

The current at DC and USB is limited to prevent input

overload. This current limit can be selected to match the

capabilities of the source, whether it is a 100mA or 500mA

USB source, or an AC adapter. When the load exceeds

the input current limit, SYS drops to 75mV below BATT

and the battery supplies supplemental load current.

The MAX8934_ reduces input limiter current by 5%/NC

when its die temperature exceeds +100NC. The system

load (SYS) has priority over the charger current, so low-

ering the charge current first reduces the input current. If

the junction temperature still reaches +120NC in spite of

charge current reduction, no input (DC or USB) current

is drawn, the battery supplies the entire system load,

and SYS is regulated at 75mV below BATT. Note that

this on-chip thermal-limiting circuitry is not related to and

operates independently from the thermistor input.

While the system is powered from DC, the charger

draws power from SYS to charge the battery. If the

charger load plus system load exceeds the input current

limit, an adaptive charger control loop reduces charge

current to prevent the SYS voltage from collapsing.

Maintaining a higher SYS voltage improves efficiency

and reduces power dissipation in the input limiter. The

total current through the switch (Q1 or Q2 in the Typical

Operating Circuit) is the sum of the load current at SYS

and the battery charging current. The MAX8934A limiter

clamps at 5.3V (4.35V for the MAX8934B/MAX8934C/

remains on, the input switch that

Input Overcurrent Protection

Adaptive Battery Charging

Input Voltage Limiting

Thermal Limiting

MAX8934BETI+T Maxim Integrated Products, MAX8934BETI+T Datasheet - Page 20

MAX8934BETI+T

Specifications of MAX8934BETI+T

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