LP3906SQ-JXXIEV National Semiconductor, LP3906SQ-JXXIEV Datasheet - Page 36

LP3906SQ-JXXIEV

Manufacturer Part Number

LP3906SQ-JXXIEV

Description

BOARD EVALUATION LP3906SQ-JXXI

Manufacturer

National Semiconductor

Series

PowerWise®r

Datasheets

1.LP3906SQ-DJXINOPB.pdf (40 pages)

2.LP3906SQ-JXXIEV.pdf (18 pages)

3.LP3906SQ-JXXIEV.pdf (40 pages)

Specifications of LP3906SQ-JXXIEV

Main Purpose

DC/DC, Step Down with LDO

Outputs And Type

4, Non-Isolated

Current - Output

1.5A, 1.5A, 300mA, 300mA

Regulator Topology

Buck

Frequency - Switching

2MHz

Board Type

Fully Populated

Utilized Ic / Part

LP3906

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Voltage - Output

Voltage - Input

Power - Output

Lead Free Status / Rohs Status

Supplier Unconfirmed

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High Vin-High Load Operation

Additional information is provided when the IC is operated at

extremes of Vin and regulator loads. These are described in

terms of the Junction temperature and, Buck output ripple

management.

Junction Temperature

The maximum junction temperature TJ-MAX-OP of 125ºC of

the IC package.

The following equations demonstrate junction temperature

determination, ambient temperature TA-MAX and Total chip

power must be controlled to keep TJ below this maximum:

TJ-MAX-OP = TA-MAX + (θJA) [ °C/ Watt] * (PD-MAX)

[Watts]

Total IC power dissipation PD-MAX is the sum of the individ-

ual power dissipation of the four regulators plus a minor

amount for chip overhead. Chip overhead is Bias, TSD & LDO

analog.

PD-MAX = P

[Watts].

Power dissipation of LDO1

Power dissipation of LDO2

LDO1

LDO2

= (Vin

LDO1

LDO2

LDO1

- Vout

+ P

LD02

LDO1

LDO2

+ P

) * Iout

BUCK1

LDO1

+ P

LDO2

BUCK2

[V*A]

+ (0.0001A * Vin)

LP3906 Buck Converter

vs I

LOAD

Operating Ranges

Power dissipation of Buck1

Vout

Power dissipation of Buck2

Vout

η is the efficiency for the specific condition taken from effi-

ciency graphs.

Buck Output Ripple Management

If Vin and ILoad increase, the output ripple associated with

the Buck Regulators also increases. The figure below shows

the safe operating area. To ensure operation in the area of

concern it is recommended that the system designer circum-

vents the output ripple issues to install schottky diodes on the

Bucks(s) that are expected to perform under these extreme

corner conditions.

(Schottky diodes are recommended to reduce the output rip-

ple if the system requirements include this shaded area of

operation. Vin > 5.2 V and Iload > 1.24 A)

Buck1

Buck2

= efficiency of buck 1

= efficiency of buck 2

Buck1

Buck2

= P

* Iout

– P

Buck1

20197864

Buck2

OUT

* (1 -η

* (1 - η

) / η

[V*A]

LP3906SQ-JXXIEV National Semiconductor, LP3906SQ-JXXIEV Datasheet - Page 36

LP3906SQ-JXXIEV

Specifications of LP3906SQ-JXXIEV

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