LM3352-3.0EVAL National Semiconductor, LM3352-3.0EVAL Datasheet - Page 9

LM3352-3.0EVAL

Manufacturer Part Number

LM3352-3.0EVAL

Description

EVALUATION BOARD FOR LM3352-3.0

Manufacturer

National Semiconductor

Datasheet

1.LM3352MTCX-2.5.pdf (12 pages)

Specifications of LM3352-3.0EVAL

Main Purpose

DC/DC, Step Up or Down

Outputs And Type

1, Non-Isolated

Voltage - Output

Current - Output

200mA

Voltage - Input

2.5 ~ 5.5V

Regulator Topology

Buck-Boost

Board Type

Fully Populated

Utilized Ic / Part

LM3352

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

Frequency - Switching

Other names

*LM3352-3.0EVAL

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Ceramic

Tantalum

Polymer Electrolytic

ESR

Relative Height

Relative Footprint

Temperature Stability

Frequency Stability

dv/dt of V

Filter Capacitor Selection

yuden which are suitable for use with regulators. Ceramics

are taller and larger than the tantalums of the same capaci-

tance value.

iii) Polymer Electrolytic

Polymer electrolytic is a third suitable technology. Polymer

capacitors provide some of the best features of both the

ceramic and the tantalum technologies. They provide very

low ESR values while still achieving high capacitance val-

b) CAPACITOR SELECTION

i) Output Capacitor (C

The output capacitor C

the output ripple voltage so C

lected. The graphs titled V

Performance Characteristics section show how the ripple

voltage magnitude is affected by the C

capacitor technology. These graphs are taken at the gain at

which worst case ripple is observed. In general, the higher

the value of C

lighter loads, the low ESR ceramics offer a much lower V

ripple than the higher ESR tantalums of the same value. At

higher loads, the ceramics offer a slightly lower V

magnitude than the tantalums of the same value. However,

the dv/dt of the V

electrolytics is much lower than the tantalums under all load

conditions. The tantalums are suggested for very low profile,

small size applications. The ceramics and polymer electro-

lytics are a good choice for low ripple, low noise applications

where size is less of a concern.

ii) Input Capacitor (C

The input capacitor C

input ripple voltage, and to a lesser degree the V

OUT

Ripple Magnitude

OUT

Ripple

OUT

, the lower the output ripple magnitude. At

OUT

ripple with the ceramics and polymer

OUT

All Loads

OUT

directly affects the magnitude of the

Taiyo-yuden

AVX

Sprague/Vishay

Nichicon

Cornell-Dubilier (ESRD) (508) 996-8561

Sanyo (POSCAP)

)

OUT

)

directly affects the magnitude of

50 mA

100 mA

Manufacturer

Ripple vs. C

OUT

should be carefully se-

TABLE 1. Comparison of Capacitor Technologies

OUT

TABLE 2. Capacitor Vendor Information

Lowest

Low for Small Values (

Higher Values

Large

X7R/X5R-Acceptable

Good

Low

Lowest

(Continued)

value and the

in the Typical

OUT

(408) 573-4150

(803) 448-9411

(207) 324-4140

(847) 843-7500

(619) 661-6322

ripple.

ripple

OUT

Ceramic

Tel

ues. However, their ESR is still higher than the ceramics,

and their capacitance value is lower than the tantalums of

the same size. Polymers offer good frequency stability (com-

parable to ceramics) and good temperature stability (compa-

rable to tantalums). The Aluminum Polymer Electrolytics

offered by Cornell-Dubilier and Panasonic, and the POS-

CAPs offered by Sanyo fall under this category.

Table 1 compares the features of the three capacitor tech-

nologies.

A higher value C

low input and output ripple as well as size a 15 µF polymer

electrolytic, 22 µF ceramic, or 33 µF tantalum capacitor is

recommended. This will ensure low input ripple at 200 mA

load current. If lower currents will be used or higher input

ripple can be tolerated then a smaller capacitor may be used

to reduce the overall size of the circuit. The lower ESR

ceramics and polymer electrolytics achieve a lower V

ripple than the higher ESR tantalums of the same value.

Tantalums make a good choice for small size, very low

profile applications. The ceramics and polymer electrolytics

are a good choice for low ripple, low noise applications

where size is less of a concern. The 15 µF polymer electro-

lytics are physically much larger than the 33 µF tantalums

and 22 µF ceramics.

iii) C

A 1 µF, XR7 ceramic capacitor should be connected to pin

internal supply rail of the LM3352.

Of the different capacitor technologies, a sample of vendors

that have been verified as suitable for use with the LM3352

are shown in Table 2.

10 µF); Taller for

FIL

. This capacitor provides the filtering needed for the

FIL

(408) 573-4159

(803) 448-1943

(207) 324-7223

(847) 843-2798

(508) 996-3830

(619) 661-1055

will give a lower V

Fax

High

Lowest

Small

Good

Acceptable

High

Slightly Higher

High

Tantalum

www.t-yuden.com

www.avxcorp.com

www.vishay.com

www.nichicon.com

www.cornell-dubilier.com

www.sanyovideo.com

ripple. To optimize

Website

Low

Largest

Good

Low

Electrolytic

www.national.com

Polymer

LM3352-3.0EVAL National Semiconductor, LM3352-3.0EVAL Datasheet - Page 9

LM3352-3.0EVAL

Specifications of LM3352-3.0EVAL

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