LTC3401 Datasheet, PDF(9/16 Page) Linear Technology – 1A, 3MHz Micropower Synchronous Boost Converter

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LTC3401 Datasheet, PDF (9/16 Pages) Linear Technology – 1A, 3MHz Micropower Synchronous Boost Converter

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LTC3401

APPLICATIO S I FOR ATIO

Burst Mode operation is user controlled by driving the

MODE/SYNC pin high to enable and low to disable. It is

recommended that Burst Mode operation be entered after

the part has started up.

Rt SHDN

MODE VC

VIN

SW VOUT

GND PGOOD

COMPONENT SELECTION

Inductor Selection

The high frequency operation of the LTC3401 allows the

use of small surface mount inductors. The minimum

inductance value is proportional to the operating fre-

quency and is limited by the following constraints:

( ) L > 3 ÂµH

and

VIN(MIN) â¢

VOUT(MAX) â VIN(MIN)

f â¢ Ripple â¢ VOUT(MAX)

where

f = Operating Frequency (Hz)

Ripple = Allowable Inductor Current Ripple (A)

VIN(MIN) = Minimum Input Voltage (V)

VOUT(MAX) = Maximum Output Voltage (V)

The inductor current ripple is typically set to 20% to 40%

of the maximum inductor current.

For high efficiency, choose an inductor with a high fre-

quency core material, such as ferrite, to reduce core

losses. The inductor should have low ESR (equivalent

series resistance) to reduce the I2R losses and must be

able to handle the peak inductor current at full load without

saturating. Molded chokes or chip inductors usually do

not have enough core to support the peak inductor cur-

rents in the 1A to 2A region. To minimize radiated noise,

use a toroid, pot core or shielded bobbin inductor. See

Table 1 for a list of component suppliers.

Table 1. Inductor Vendor Information

SUPPLIER PHONE

FAX

WEBSITE

Coilcraft (847) 639-6400 (847) 639-1469 www.coilcraft.com

Coiltronics (516) 241-7876 (516) 241-9339 www.coiltronics.com

Murata

(814) 237-1431 (814) 238-0490 www.murata.com

(800) 831-9172

Sumida

USA: (847) 956-0666 (847) 956-0702 www.japanlink.com

Japan: 81-3-3607-5111 81-3-3607-5144 sumida

VOUT

3401 F01

Figure 1. Recommended Component Placement. Traces

Carrying High Current Are Direct. Trace Area FB and VC Pins

Are Kept Low. Lead Length to Battery Should be Kept Short

Output Capacitor Selection

The output voltage ripple has several components. The

bulk value of the capacitor is set to reduce the ripple due

to charge into the capacitor each cycle. The max ripple due

to charge is given by:

VRBULK

IP â¢ VIN

COUT â¢ VOUT

â¢

where

IP = Peak Inductor Current

The ESR can be a significant factor for ripple in most power

converters. The ripple due to capacitor ESR is simply given

by:

VRCESR = IP â¢ RESR V

where

RESR = Capacitor Series Resistance

Low ESR capacitors should be used to minimize output

voltage ripple. For surface mount applications, AVX TPS

series tantalum capacitors, Sanyo POSCAP, or Taiyo-

Yuden ceramic capacitors are recommended. For through-

hole applications Sanyo OS-CON capacitors offer low ESR

in a small package size. See Table 2 for a list of component

suppliers.

Table 2. Capacitor Vendor Information

SUPPLIER PHONE

FAX

AVX

(803) 448-9411 (803) 448-1943

Sanyo

(619) 661-6322 (619) 661-1055

Taiyo Yuden (408) 573-4150 (408) 573-4159

WEBSITE

www.avxcorp.com

www.sanyovideo.com

www.t-yuden.com

3401fa

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