ISL6413 Datasheet, PDF(9/12 Page) Intersil Corporation – Triple Output Regulator with Single Synchronous Buck and Dual LDO

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

ISL6413 Datasheet, PDF (9/12 Pages) Intersil Corporation – Triple Output Regulator with Single Synchronous Buck and Dual LDO

◁

ISL6413

Synchronization

The typical operating frequency for the converter is 750kHz

if no clock signal is applied to SYNC pin. It is possible to

synchronize the converter to an external clock within a

frequency range from 500kHz to 1000kHz. The device

automatically detects the rising edge of the first clock and

will synchronize immediately to the external clock. If the

clock signal is stopped, the converter automatically switches

back to the internal clock and continues operation without

interruption. The switch over will be initiated if no rising edge

on the SYNC pin is detected for a duration of two internal

1.3Âµs clock cycles.

Soft Start

As the EN_PWM (Enable) pin goes high, the soft-start

function will generate an internal voltage ramp. This causes

the start-up current to slowly rise preventing output voltage

overshoot and high inrush currents. The soft-start duration is

typically 5.5ms with 750kHz switching frequency. When the

soft-start is completed, the error amplifier will be connected

directly to the internal voltage reference. The SYNC input is

ignored during soft start.

Enable PWM

Logic low on EN_PWM pin forces the PWM section into

shutdown. In shutdown all the major blocks of the PWM

including power switches, drivers, voltage reference, and

oscillator are turned off.

Power Good (PG_PWM)

When chip is enabled, this output is HIGH, when VOUT is

within 8% of 1.8V and active low outside this range. When

the PWM is disabled, the output is active low. PG_PWM is

the complement of PG_PWM.

Leave the PG_PWM pin unconnected when not used.

PWM Overvoltage and Overcurrent Protection

The PWM output current is sampled at the end of each PWM

cycle. Should it exceed the overcurrent limit, a 4 bit up/down

counter counts up two LSB. Should it not be in overcurrent

the counter counts down one LSB (but counter will not

"rollover" or count below 0000). If >33% of the PWM cycles

go into overcurrent, the counter rapidly reaches count 1111

and the PWM output is shut down and the softstart counter is

reset. After 16 clocks the PWM output is enabled and the SS

cycle is started.

If VOUT exceeds the overvoltage limit for 32 consecutive

clock cycles the PWM output is shut off and the SS counters

reset. The softstart cycle will not be started until EN or VIN

are toggled.

PG_LDO

PG_LDO is an open drain pulldown NMOS output that will

sink 1mA at 0.4V max. It goes to the active low state if either

LDO output is out of regulation by more than 15%. When the

LDO is disabled, the output is active low.

LDO Regulators

Each LDO consists of a 1.184V 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

amplifierâs 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 VOUT1/VOUT2 pins.

Internal P-Channel Pass Transistors

The ISL6413 LDO Regulators features a typical 0.5â¦

Rds(ON) P-channel 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 ISL6413 does not

suffer from these problems.

Integrated RESET for MAC/ Baseband Processors

The ISL6413 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 VIN supply voltage decreases below a preset

threshold, keeping it asserted for a programmable time (set

by external capacitor CT) after the VIN pin voltage has risen

above the RESET threshold.

The push pull output stage of the reset circuit provides both

an active-Low and an active-HIGH output. The RESET

threshold for ISL6413 is 2.630V typical.

UVLO Reset threshold is always lower then RESET. This

insures that as VIN falls, reset goes low before LDOs and

PWM are shuts off.

Output Voltages

The ISL6413 provides fixed output voltages for use in

Wireless Chipset applications. Internal trimmed resistor

networks set the typical output voltages as shown here:

VOUT_PWM = 1.8V; VOUT1 = 2.84V; VOUT2 = 2.84V.

Integrator Circuitry

The ISL6413 LDO Regulators uses an external 33nF

compensation capacitor for minimizing load and line

regulation errors and for lowering output noise. When the

output voltage shifts due to varying load current or input

▷