ISL6412IR Intersil, ISL6412IR Datasheet - Page 8

ISL6412IR

Manufacturer Part Number

ISL6412IR

Description

IC REG LDO TRIPLE OUTPUT 16-QFN

Manufacturer

Intersil

Datasheet

1.ISL6412IRZ-TK.pdf (10 pages)

Specifications of ISL6412IR

Regulator Topology

Positive Fixed

Voltage - Output

1.8V, 2.8V, 2.8V

Voltage - Input

3 ~ 3.6 V

Voltage - Dropout (typical)

-, 0.125V @ 225mA, 0.1V @ 125mA

Number Of Regulators

Current - Output

330mA (Max), 225mA (Max), 125mA (Max)

Current - Limit (min)

500mA, 330mA, 300mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-VQFN Exposed Pad, 16-HVQFN, 16-SQFN, 16-DHVQFN

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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pin also goes LOW during thermal shutdown or an

overcurrent event on LDO1. Connect this pin to GND, if

unused.

RESET - This pin is the active-LOW output of the push-pull

output stage of the integrated reset supervisory circuit. The

reset circuit monitors V

pin, if V

output remains LOW, while the V

reset threshold, and for at least 25ms, after V

the RESET threshold.

Functional Description

The ISL6412 is a 3-in-1 multi-output, low dropout, regulator

designed for wireless chipset power applications. It supplies

three fixed output voltages 1.8V, 2.8V and 2.8V. Each LDO

consists of a 1.2V reference, error amplifier, MOSFET driver,

P-Channel pass transistor, dual-mode comparator and

internal feedback voltage divider.

The 1.2V band gap reference is connected to the error

amplifier’s inverting input. The error amplifier compares this

reference to the selected feedback voltage and amplifies the

difference. The MOSFET driver reads the error signal and

applies the appropriate drive to the P-Channel pass transistor.

If the feedback voltage is lower then the reference voltage, the

pass transistor gate is pulled lower, allowing more current to

pass and increasing the output voltage. If the feedback

voltage is higher then the reference voltage, the pass

transistor gate is driven higher, allowing less current to pass to

the output. The output voltage is fed back through an internal

resistor divider connected to OUT1/OUT2/OUT3 pins.

Additional blocks include an output overcurrent protection,

thermal sensor, fault detector, RESET function and

shutdown logic.

Internal P-Channel Pass Transistors

The ISL6412 features a typical 0.5Ω r

MOSFET pass transistors. This provides several advantages

over similar designs using PNP bipolar pass transistors. The

P-Channel MOSFET requires no base drive, which reduces

quiescent current considerably. PNP based regulators waste

considerable current in dropout when the pass transistor

saturates. They also use high base drive currents under

large loads. The ISL6412 does not suffer from these

problems.

Integrated Reset for MAC/Baseband Processors

The ISL6412 includes a microprocessor supervisory block.

This block eliminates the extra reset IC and external

components needed in wireless chipset applications. This

block performs a single function; it asserts a RESET signal

whenever the V

threshold, keeping it asserted for a programmable time (set

by external capacitor CT) after the V

above the reset threshold. The reset threshold for the

ISL6412 is 2.63V typical.

falls below the RESET threshold. The RESET

supply voltage decreases below a preset

and asserts a RESET output at this

pin voltage is below the

DS(ON)

pin voltage has risen

P-channel

rises above

ISL6412

The voltage at the CT pin is compared to the 1.2V bandgap

voltage. The charging of the CT capacitor behaves like an

RC network and the RESET delay can be approximated by:

Td = -R*C*ln(1-1.2V/VIN)

Where C is the capacitor at CT, and R is 11.1MΩ for

VIN = 3.3V. With no capacitor on the CT pin the RESET

delay will be close to zero. Figure 12 shows the RESET

delay vs CT capacitance.

Output Voltages

The ISL6412 provides fixed output voltages for use in

Wireless Chipset applications. Internal trimmed resistor

networks set the typical output voltages as shown here:

Shutdown

Pulling the SHDN pin LOW puts the complete chip into

shutdown mode, and supply current drops to 5μA typical.

This input has an internal pull-up resistor, so that in normal

operation the outputs are always enabled; external pull-up

resistors are not required.

Current Limit

The ISL6412 monitors and controls the pass transistor’s

gate voltage to limit the output current. The current limit for

LDO1 is 500mA, LDO2 is 330mA and LDO3 is 300mA. The

output can be shorted to ground without damaging the part

due to the current limit and thermal protection features.

OUT1

500

400

300

200

100

FIGURE 12. RESET DELAY vs CT CAPACITANCE

= 1.8V; V

0.01

OUT2

0.02

= 2.8V; V

0.03

CT (µF)

OUT3

0.04

0.05

= 2.8V.

0.06

March 20, 2007

0.07

FN9067.1

ISL6412IR Intersil, ISL6412IR Datasheet - Page 8

ISL6412IR

Specifications of ISL6412IR

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