FAN5353 Fairchild Semiconductor, FAN5353 Datasheet - Page 11

FAN5353

Manufacturer Part Number

FAN5353

Description

The FAN5353 is a step-down switching voltage regulator that delivers an adjustable output from an input voltage supply of 2

Manufacturer

Fairchild Semiconductor

Datasheet

1.FAN5353.pdf (13 pages)

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FAN5353 • Rev. 1.0.2

example, to obtain C

produce twice the square wave ripple of 2 x 10μF 0805.

To minimize ESL, try to use capacitors with the lowest ratio

of length to width. 0805s have lower ESL than 1206s. If low

output ripple is a chief concern, some vendors produce 0508

or 0612 capacitors with ultra-low ESL. Placing additional

small value capacitors near the load also reduces the high-

frequency ripple components.

Input Capacitor

The 10μF ceramic input capacitor should be placed as close

as possible between the VIN pin and PGND to minimize the

parasitic inductance. If a long wire is used to bring power to

the IC, additional “bulk” capacitance (electrolytic or tantalum)

should be placed between C

reduce under-damped ringing that can occur between the

inductance of the power source leads and C

The effective C

increases due to DC bias effects. This has no significant

impact on regulator performance.

Layout Recommendations

The layout recommendations below highlight various top-

copper planes by using different colors. It includes COUT3 to

demonstrate how to add C

capacitance value decreases as V

OUT

COUT3

= 20μF, a single 22μF 0805 would

10μF

0805

OUT

and the power source lead to

capacitance to reduce ripple

VOUT

COUT2

10μF

0805

5 x 5 mm

0.47μH

Figure 23. 3A Layout Recommendation

COUT1

10μF

0805

PGND

0402

and transient excursions. The inductor in this example is the

TDK VLC5020T-R47N.

VCC and VIN should be connected together by a thin trace

some distance from the IC, or through a resistor (shown as

R3 below), to isolate the switching spikes on PVIN from the

IC bias supply on VCC. If PCB area is at a premium, the

connection between PVIN and VCC can be made on another

PCB layer through vias. The via impedance provides some

filtering for the high-frequency spikes generated on PVIN.

PGND and AGND connect through the thermal pad of the

IC. Extending the PGND and AGND planes improves IC

cooling. The IC analog ground (AGND) is bonded to P1

between pins 1 and 12. Large AC ground currents should

return to pins 3 and 4 (PGND) either through the copper

under P1 between pins 6 and 7 or through a direct trace

from pins 3 and 4 (as shown for COUT1-COUT3).

EN and PGOOD connect through vias to the system control

logic.

CIN1 is an optional device used to provide a lower

impedance path for high-frequency switching edges/spikes,

which helps to reduce SW node and VIN ringing. CIN should

be placed as close as possible between PGND and VIN, as

shown below.

PGND connection back to inner planes should be

accomplished as series of vias distributed among the COUT

return track and CIN return plane between pins 6 and 7.

FAN5353

(GND)

CIN1

0402

PGND

AGND

VCC

10μF

0805

CIN

CVCC

VIN

www.fairchildsemi.com

FAN5353 Fairchild Semiconductor, FAN5353 Datasheet - Page 11

FAN5353

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