ISL6412 Datasheet, PDF(9/10 Page) Intersil Corporation – Triple Output, Low-Noise LDO Regulator with Integrated Reset Circuit

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ISL6412 Datasheet, PDF (9/10 Pages) Intersil Corporation – Triple Output, Low-Noise LDO Regulator with Integrated Reset Circuit

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ISL6412

Thermal Overload Protection

Thermal overload protection limits total power dissipation in

the ISL6412. When the junction temperature (TJ) exceeds

+150Â°C, the thermal sensor sends a signal to the shutdown

logic, turning off the pass transistor and allowing the IC to

cool. The pass transistor turns on again after the ICâs

junction temperature typically cools by 20Â°C, resulting in a

pulsed output during continuous thermal overload

conditions. Thermal overload protection protects the

ISL6412 against fault conditions. For continuous operation,

do not exceed the absolute maximum junction temperature

rating of +150Â°C.

Operating Region and Power Dissipation

The maximum power dissipation of ISL6412 depends on the

thermal resistance of the IC package and circuit board, the

temperature difference between the die junction and

ambient air, and the rate of air flow. The power dissipated in

the device is:

PT = P1 + P2 + P3, where

P1 = Iout1 (Vin â Vout1)

P2 = Iout2 (Vin â Vout2)

P3 = Iout3 (Vin- Vout3)

The maximum power dissipation is:

Pmax = (Tjmax â TA)/Î¸JA

Where Tjmax = 150Â°C, TA = ambient temperature, and Î¸JA

is the thermal resistance from the junction to the surrounding

environment.

The ISL6412 package features an exposed thermal pad on

its underside. This pad lowers the thermal resistance of the

package by providing a direct heat conduction path from the

die to the PC board. Additionally, the ISL6412âs ground

(GND/GND3) performs the dual function of providing an

electrical connection to system ground and channeling heat

away. Connect the exposed backside pad and GND to the

system ground using a large pad or ground plane, or through

multiple vias to the ground plane layer.

Integrator Circuitry

The ISL6412 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 voltage, the integrator capacitor

voltage is raised or lowered to compensate for the

systematic offset at the error amplifier. Compensation is

limited to Â±5% to minimize transient overshoot when the

device goes out of dropout, current limit, or thermal

shutdown.

FAULT Functionality

TABLE 1.

EVENT

Below UVLO threshold

VOUT1 = 1.8V Â±8% typ

VOUT2 /3 not in regulation

VOUT1 not in regulation

VOUT2 and VOUT3 are in regulation

Thermal Shutdown

Normal Shutdown with SHDN pin

Over-current only on LDO1

Over-current only on LDO2/LDO3

FAULT1

Applications Information

Capacitor Selection and Regulator Stability

Capacitors are required at the ISL6412âs input and output for

stable operation over the entire load range and the full

temperature range. Use >1ÂµF capacitor at the input of

ISL6412. The input capacitor lowers the source impedance

of the input supply. Larger capacitor values and lower ESR

provides better PSRR and line transient response. The input

capacitor must be located at a distance of not more then 0.5

inches from the VIN pins of the IC and returned to a clean

analog ground. Any good quality ceramic or tantalum can be

used as an input capacitor.

The output capacitor must meet the requirements of

minimum amount of capacitance and ESR for all three

LDOâs. The ISL6412 is specifically designed to work with

small ceramic output capacitors. The output capacitorâs ESR

affects stability and output noise. Use an output capacitor

with an ESR of 50mâ¦ or less to insure stability and optimum

transient response. For stable operation, a ceramic

capacitor, with a minimum value of 3.3ÂµF, is recommended

for VOUT1 for 300mA output current, and 2.2ÂµF is

recommended for VOUT2 and VOUT3 each at 200mA load

current. There is no upper limit to the output capacitor value.

Larger capacitor can reduce noise and improve load

transient response, stability and PSRR. Higher value of

output capacitor (10ÂµF) is recommended for LDO3 when

used to power VCO circuitry in wireless chipsets. The output

capacitor should be located very close to Vout pins to

minimize impact of PC board inductances and the other end

of the capacitor should be returned to a clean analog

ground.

Input-Output (Dropout) Voltage

A regulatorâs minimum input-output voltage differential (or

dropout voltage) determines the lowest usable supply

voltage. Because the ISL6412 uses a P-channel MOSFET

pass transistor, its dropout voltage is a function of rDS(ON)

(typically 0.5) multiplied by the load current.

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