ltc3521fe Linear Technology Corporation, ltc3521fe Datasheet - Page 15

ltc3521fe

Manufacturer Part Number

ltc3521fe

Description

Ltc3521 Wide Vin, 1a Buck-boost Dc/dc And Dual 600ma Buck Dc/dc Converters Features

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3521FE.pdf (20 pages)

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applicaTions inForMaTion

from the following formulas, where f is the frequency in

MHz and L is the inductance in μH:

In addition to affecting output current ripple, the size of

the inductor can also affect the stability of the feedback

loop. In boost mode, the converter transfer function has

a right half plane zero at a frequency that is inversely

proportional to the value of the inductor. As a result, a

large inductor can move this zero to a frequency that is

low enough to degrade the phase margin of the feedback

loop. It is recommended that the chosen inductor value be

less than 10μH if the buck-boost converter is to be used

in the boost region.

Buck-Boost Output Capacitor Selection

A low ESR output capacitor should be utilized at the buck-

boost converter output in order to minimize output volt-

age ripple. Multilayer ceramic capacitors are an excellent

choice as they have low ESR and are available in small

footprints. The capacitor should be chosen large enough

to reduce the output voltage ripple to acceptable levels.

Neglecting the capacitor ESR and ESL, the peak-to-peak

output voltage ripple can be calculated by the following

formulas, where f is the frequency in MHz, C

capacitance in μF , L is the inductance in μH and I

the output current in amps:

L P

P-P,BOOST

P-P

-P,BUCK

-P,B

, , BUCK

O O OST

LOAD

• •

L C

•

OUT

•

V V

OUT

(

OUT

•

OUT

(

OUT

•

OUT

–

•

–

•

OUT

)

(

)

–

OUT

)

LOAD

OUT

is the

Since the output current is discontinuous in boost mode,

the ripple in this mode will generally be much larger than

the magnitude of the ripple in buck mode. In addition to

controlling the ripple magnitude, the value of the output

capacitor also affects the location of the resonant frequency

in the open loop converter transfer function. If the output

capacitor is too small, the bandwidth of the converter

will extend high enough to degrade the phase margin.

To prevent this from happening, it is recommended that

a minimum value of 10μF be used for the buck-boost

output capacitor.

Buck-Boost Input Capacitor Selection

The supply current to the buck-boost converter is provided

by the PV

capacitor with a value of at least 4.7μF be located as close

to this pin as possible.

Inductor Style and Core Material

Different inductor core materials and styles have an

impact on the size and price of an inductor at any given

peak current rating. Toroid or shielded pot cores in ferrite

or permalloy materials are small and reduce emissions,

but generally cost more than powdered iron core induc-

tors with similar electrical characteristics. The choice of

inductor style depends upon the price, sizing, and EMI

requirements of a particular application. Table 4 provides a

sampling of inductors that are well suited to many LTC3521

application circuits.

Table 4. Representative Surface Mount Inductors

MANU-

FACTURER

Taiyo Yuden NP03SB4R7M

Coilcraft

Cooper-

Bussmann

Sumida

IN1

NP03SB6R8M

MSS7341-502NL

DT1608C-472ML

SD7030-5R0-R

SD20-6R2-R

CDR6D23MNNP-4R2 4.2µH

CDRH4D16FB/ND-

6R8N

pin. It is recommended that a low ESR ceramic

PART NUMBER

VALUE

4.7μH

6.8μH

4.7µH

6.2µH

6.8µH

5μH

5µH

CURRENT

1.12A

MAX

1.2A

2.3A

1.2A

2.4A

2.6A

LTC3521

0.047Ω 1.8mm

0.084Ω 1.8mm

0.024Ω 4.1mm

0.085Ω 2.92mm

0.026Ω

0.072Ω

0.052Ω 2.5mm

0.081Ω 1.8mm

DCR

HEIGHT

3mm

2mm

3521f

ltc3521fe Linear Technology Corporation, ltc3521fe Datasheet - Page 15

ltc3521fe

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